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helpers.go
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helpers.go
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package packet
import (
"bytes"
"encoding/binary"
"encoding/hex"
"fmt"
"net"
"strconv"
"go.uber.org/zap"
"golang.org/x/net/ipv4"
)
// Helpher functions for the package, mainly for debugging and validation
// They are not used by the main package
// VerifyIPChecksum returns true if the IP header checksum is correct
// for this packet, false otherwise. Note that the checksum is not
// modified.
func (p *Packet) VerifyIPChecksum() bool {
sum := p.computeIPChecksum()
return sum == p.ipHdr.ipChecksum
}
// UpdateIPChecksum computes the IP header checksum and updates the
// packet with the value.
func (p *Packet) UpdateIPChecksum() {
p.ipHdr.ipChecksum = p.computeIPChecksum()
binary.BigEndian.PutUint16(p.ipHdr.Buffer[ipv4ChecksumPos:ipv4ChecksumPos+2], p.ipHdr.ipChecksum)
}
// VerifyTCPChecksum returns true if the TCP header checksum is correct
// for this packet, false otherwise. Note that the checksum is not
// modified.
func (p *Packet) VerifyTCPChecksum() bool {
sum := p.computeTCPChecksum()
return sum == p.tcpHdr.tcpChecksum
}
// UpdateTCPChecksum computes the TCP header checksum and updates the
// packet with the value.
func (p *Packet) UpdateTCPChecksum() {
buffer := p.ipHdr.Buffer[p.ipHdr.ipHeaderLen:]
p.tcpHdr.tcpChecksum = p.computeTCPChecksum()
binary.BigEndian.PutUint16(buffer[tcpChecksumPos:tcpChecksumPos+2], p.tcpHdr.tcpChecksum)
}
// UpdateTCPFlags
func (p *Packet) updateTCPFlags(tcpFlags uint8) {
buffer := p.ipHdr.Buffer[p.ipHdr.ipHeaderLen:]
buffer[tcpFlagsOffsetPos] = tcpFlags
}
// ConvertAcktoFinAck function removes the data from the packet
// It is called only if the packet is Ack or Psh/Ack
// converts psh/ack to fin/ack packet.
func (p *Packet) ConvertAcktoFinAck() error {
var tcpFlags uint8
tcpFlags = tcpFlags | TCPFinMask
tcpFlags = tcpFlags | TCPAckMask
p.updateTCPFlags(tcpFlags)
p.tcpHdr.tcpFlags = tcpFlags
if err := p.TCPDataDetach(0); err != nil {
return fmt.Errorf("ack packet in wrong format")
}
p.DropTCPDetachedBytes()
return nil
}
//PacketToStringTCP returns a string representation of fields contained in this packet.
func (p *Packet) PacketToStringTCP() string {
var buf bytes.Buffer
buf.WriteString("(error)")
header, err := ipv4.ParseHeader(p.ipHdr.Buffer)
if err == nil {
buf.Reset()
buf.WriteString(header.String())
buf.WriteString(" srcport=")
buf.WriteString(strconv.Itoa(int(p.SourcePort())))
buf.WriteString(" dstport=")
buf.WriteString(strconv.Itoa(int(p.DestPort())))
buf.WriteString(" tcpcksum=")
buf.WriteString(fmt.Sprintf("0x%0x", p.tcpHdr.tcpChecksum))
buf.WriteString(" data")
buf.WriteString(hex.EncodeToString(p.GetTCPBytes()))
}
return buf.String()
}
// Computes the IP header checksum. The packet is not modified.
func (p *Packet) computeIPChecksum() uint16 {
// IP packet checksum is computed with the checksum value set to zero
p.ipHdr.Buffer[ipv4ChecksumPos] = 0
p.ipHdr.Buffer[ipv4ChecksumPos+1] = 0
// Compute checksum, over IP header only
sum := checksum(p.ipHdr.Buffer[:p.ipHdr.ipHeaderLen])
// Restore the previous checksum (whether correct or not, as this function doesn't change it)
binary.BigEndian.PutUint16(p.ipHdr.Buffer[ipv4ChecksumPos:ipv4ChecksumPos+2], p.ipHdr.ipChecksum)
return sum
}
// Computes the TCP header checksum. The packet is not modified.
func (p *Packet) computeTCPChecksum() uint16 {
var buf [2]byte
buffer := p.ipHdr.Buffer[p.ipHdr.ipHeaderLen:]
tcpBufSize := uint16(len(buffer) + len(p.tcpHdr.tcpData) + len(p.tcpHdr.tcpOptions))
oldCsumLow := buffer[tcpChecksumPos]
oldCsumHigh := buffer[tcpChecksumPos+1]
// Put 0 to calculate the checksum. We will reset it back after the checksum
buffer[tcpChecksumPos] = 0
buffer[tcpChecksumPos+1] = 0
csum := partialChecksum(0, p.ipHdr.Buffer[ipv4SourceAddrPos:ipv4SourceAddrPos+4])
csum = partialChecksum(csum, p.ipHdr.Buffer[ipv4DestAddrPos:ipv4DestAddrPos+4])
// reserved 0 byte
buf[0] = 0
// tcp option 6
buf[1] = 6
csum = partialChecksum(csum, buf[:])
binary.BigEndian.PutUint16(buf[:], tcpBufSize)
csum = partialChecksum(csum, buf[:])
csum = partialChecksum(csum, buffer)
csum = partialChecksum(csum, p.tcpHdr.tcpOptions)
csum = partialChecksum(csum, p.tcpHdr.tcpData)
csum16 := finalizeChecksum(csum)
// restore the checksum
buffer[tcpChecksumPos] = oldCsumLow
buffer[tcpChecksumPos+1] = oldCsumHigh
return csum16
}
// incCsum16 implements rfc1624, equation 3.
func incCsum16(start, old, new uint16) uint16 {
start = start ^ 0xffff
old = old ^ 0xffff
csum := uint32(start) + uint32(old) + uint32(new)
for (csum >> 16) > 0 {
csum = (csum & 0xffff) + ((csum >> 16) & 0xffff)
}
csum = csum ^ 0xffff
return uint16(csum)
}
func csumConvert32To16bit(sum uint32) uint16 {
for sum > 0xffff {
sum = (sum >> 16) + (sum & 0xffff)
}
return uint16(sum)
}
// Computes a sum of 16 bit numbers
func checksumDelta(init uint32, buf []byte) uint32 {
sum := init
for ; len(buf) >= 2; buf = buf[2:] {
sum += uint32(buf[0])<<8 | uint32(buf[1])
}
if len(buf) > 0 {
sum += uint32(buf[0]) << 8
}
return sum
}
// Computes a checksum over the given slice.
func checksum(buf []byte) uint16 {
sum32 := checksumDelta(0, buf)
sum16 := csumConvert32To16bit(sum32)
csum := ^sum16
return csum
}
func partialChecksum(csum uint32, buf []byte) uint32 {
return checksumDelta(csum, buf)
}
func finalizeChecksum(csum32 uint32) uint16 {
csum16 := csumConvert32To16bit(csum32)
csum := ^csum16
return csum
}
// UpdateUDPChecksum updates the UDP checksum field of packet
func (p *Packet) UpdateUDPChecksum() {
// checksum set to 0, ignored by the stack
buffer := p.ipHdr.Buffer[p.ipHdr.ipHeaderLen:]
ignoreCheckSum := []byte{0, 0}
p.udpHdr.udpChecksum = binary.BigEndian.Uint16(ignoreCheckSum[:])
curLen := uint16(len(buffer))
udpDataLen := curLen - p.GetUDPDataStartBytes()
// update checksum.
binary.BigEndian.PutUint16(buffer[udpChecksumPos:udpChecksumPos+2], p.udpHdr.udpChecksum)
// update length.
binary.BigEndian.PutUint16(buffer[udpLengthPos:udpLengthPos+2], udpDataLen+8)
}
// ReadUDPToken returnthe UDP token. Gets called only during the handshake process.
func (p *Packet) ReadUDPToken() []byte {
buffer := p.ipHdr.Buffer[p.ipHdr.ipHeaderLen:]
// 8 byte udp header, 20 byte udp marker
if len(buffer) <= udpJwtTokenOffset {
return []byte{}
}
return buffer[udpJwtTokenOffset:]
}
// UDPTokenAttach attached udp packet signature and tokens.
func (p *Packet) UDPTokenAttach(udpdata []byte, udptoken []byte) {
udpData := []byte{}
udpData = append(udpData, udpdata...)
udpData = append(udpData, udptoken...)
packetLenIncrease := uint16(len(udpdata) + len(udptoken))
// IP Header Processing
p.FixupIPHdrOnDataModify(p.ipHdr.ipTotalLength, p.ipHdr.ipTotalLength+packetLenIncrease)
// Attach Data @ the end of current buffer
p.ipHdr.Buffer = append(p.ipHdr.Buffer, udpData...)
p.UpdateUDPChecksum()
}
// UDPDataAttach Attaches UDP data post encryption.
func (p *Packet) UDPDataAttach(header, udpdata []byte) {
// Attach Data @ the end of current buffer
p.ipHdr.Buffer = append(p.ipHdr.Buffer, header...)
p.ipHdr.Buffer = append(p.ipHdr.Buffer, udpdata...)
// IP Header Processing
p.FixupIPHdrOnDataModify(p.ipHdr.ipTotalLength, uint16(len(p.ipHdr.Buffer)))
p.UpdateUDPChecksum()
}
// UDPDataDetach detaches UDP payload from the Buffer. Called only during Encrypt/Decrypt.
func (p *Packet) UDPDataDetach() {
// Create constants for IP header + UDP header. copy ?
p.ipHdr.Buffer = p.ipHdr.Buffer[:p.ipHdr.ipHeaderLen+UDPDataPos]
}
// CreateReverseFlowPacket modifies the packet for reverse flow.
func (p *Packet) CreateReverseFlowPacket(destIP net.IP, destPort uint16) {
buffer := p.ipHdr.Buffer[p.ipHdr.ipHeaderLen:]
srcAddr := binary.BigEndian.Uint32(destIP.To4())
destAddr := binary.BigEndian.Uint32(p.ipHdr.Buffer[ipv4DestAddrPos : ipv4DestAddrPos+4])
// copy the fields
binary.BigEndian.PutUint32(p.ipHdr.Buffer[ipv4SourceAddrPos:ipv4SourceAddrPos+4], destAddr)
binary.BigEndian.PutUint32(p.ipHdr.Buffer[ipv4DestAddrPos:ipv4DestAddrPos+4], srcAddr)
binary.BigEndian.PutUint16(buffer[udpSourcePortPos:udpSourcePortPos+2], p.udpHdr.destinationPort)
binary.BigEndian.PutUint16(buffer[udpDestPortPos:udpDestPortPos+2], destPort)
p.FixupIPHdrOnDataModify(p.ipHdr.ipTotalLength, uint16(p.ipHdr.ipHeaderLen+UDPDataPos))
// Just get the IP/UDP header. Ignore the rest. No need for packet
p.ipHdr.Buffer = p.ipHdr.Buffer[:p.ipHdr.ipHeaderLen+UDPDataPos]
// change the fields
p.ipHdr.sourceAddress = net.IP(p.ipHdr.Buffer[ipv4SourceAddrPos : ipv4SourceAddrPos+4])
p.ipHdr.destinationAddress = destIP
p.udpHdr.sourcePort = p.udpHdr.destinationPort
p.udpHdr.destinationPort = destPort
p.UpdateIPChecksum()
p.UpdateUDPChecksum()
}
// GetUDPType returns udp type of packet.
func (p *Packet) GetUDPType() byte {
// Every UDP control packet has a 20 byte packet signature. The
// first 2 bytes represent the following control information.
// Byte 0 : Bits 0,1 are reserved fields.
// Bits 2,3,4 represent version information.
// Bits 5,6 represent udp packet type,
// Bit 7 represents encryption. (currently unused).
// Byte 1: reserved for future use.
// Bytes [2:20]: Packet signature.
return GetUDPTypeFromBuffer(p.ipHdr.Buffer[p.ipHdr.ipHeaderLen:])
}
// GetUDPTypeFromBuffer gets the UDP packet from a raw buffer.,
func GetUDPTypeFromBuffer(buffer []byte) byte {
if len(buffer) < (UDPDataPos + UDPSignatureLen) {
return 0
}
marker := buffer[UDPDataPos:udpSignatureEnd]
// check for packet signature.
if !bytes.Equal(buffer[udpAuthMarkerOffset:udpSignatureEnd], []byte(UDPAuthMarker)) {
zap.L().Debug("Not an Aporeto control Packet")
return 0
}
// control packet. byte 0 has packet type information.
return marker[0] & UDPPacketMask
}
//GetTCPFlags returns the tcp flags from the packet
func (p *Packet) GetTCPFlags() uint8 {
return p.tcpHdr.tcpFlags
}
//SetTCPFlags allows to set the tcp flags on the packet
func (p *Packet) SetTCPFlags(flags uint8) {
p.tcpHdr.tcpFlags = flags
}
// CreateUDPAuthMarker creates a UDP auth marker.
func CreateUDPAuthMarker(packetType uint8) []byte {
// Every UDP control packet has a 20 byte packet signature. The
// first 2 bytes represent the following control information.
// Byte 0 : Bits 0,1 are reserved fields.
// Bits 2,3,4 represent version information.
// Bits 5, 6, 7 represent udp packet type,
// Byte 1: reserved for future use.
// Bytes [2:20]: Packet signature.
marker := make([]byte, UDPSignatureLen)
// ignore version info as of now.
marker[0] |= packetType // byte 0
marker[1] = 0 // byte 1
// byte 2 - 19
copy(marker[2:], []byte(UDPAuthMarker))
return marker
}