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// Copyright 2012 Google, Inc. 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"
"github.com/google/gopacket"
"net"
"strconv"
)
var (
// We use two different endpoint types for IPv4 vs IPv6 addresses, so that
// ordering with endpointA.LessThan(endpointB) sanely groups all IPv4
// addresses and all IPv6 addresses, such that IPv6 > IPv4 for all addresses.
EndpointIPv4 = gopacket.RegisterEndpointType(1, gopacket.EndpointTypeMetadata{Name: "IPv4", Formatter: func(b []byte) string {
return net.IP(b).String()
}})
EndpointIPv6 = gopacket.RegisterEndpointType(2, gopacket.EndpointTypeMetadata{Name: "IPv6", Formatter: func(b []byte) string {
return net.IP(b).String()
}})
EndpointMAC = gopacket.RegisterEndpointType(3, gopacket.EndpointTypeMetadata{Name: "MAC", Formatter: func(b []byte) string {
return net.HardwareAddr(b).String()
}})
EndpointTCPPort = gopacket.RegisterEndpointType(4, gopacket.EndpointTypeMetadata{Name: "TCP", Formatter: func(b []byte) string {
return strconv.Itoa(int(binary.BigEndian.Uint16(b)))
}})
EndpointUDPPort = gopacket.RegisterEndpointType(5, gopacket.EndpointTypeMetadata{Name: "UDP", Formatter: func(b []byte) string {
return strconv.Itoa(int(binary.BigEndian.Uint16(b)))
}})
EndpointSCTPPort = gopacket.RegisterEndpointType(6, gopacket.EndpointTypeMetadata{Name: "SCTP", Formatter: func(b []byte) string {
return strconv.Itoa(int(binary.BigEndian.Uint16(b)))
}})
EndpointRUDPPort = gopacket.RegisterEndpointType(7, gopacket.EndpointTypeMetadata{Name: "RUDP", Formatter: func(b []byte) string {
return strconv.Itoa(int(b[0]))
}})
EndpointUDPLitePort = gopacket.RegisterEndpointType(8, gopacket.EndpointTypeMetadata{Name: "UDPLite", Formatter: func(b []byte) string {
return strconv.Itoa(int(binary.BigEndian.Uint16(b)))
}})
EndpointPPP = gopacket.RegisterEndpointType(9, gopacket.EndpointTypeMetadata{Name: "PPP", Formatter: func([]byte) string {
return "point"
}})
)
// NewIPEndpoint creates a new IP (v4 or v6) endpoint from a net.IP address.
// It returns gopacket.InvalidEndpoint if the IP address is invalid.
func NewIPEndpoint(a net.IP) gopacket.Endpoint {
ipv4 := a.To4()
if ipv4 != nil {
return gopacket.NewEndpoint(EndpointIPv4, []byte(ipv4))
}
ipv6 := a.To16()
if ipv6 != nil {
return gopacket.NewEndpoint(EndpointIPv6, []byte(ipv6))
}
return gopacket.InvalidEndpoint
}
// NewMACEndpoint returns a new MAC address endpoint.
func NewMACEndpoint(a net.HardwareAddr) gopacket.Endpoint {
return gopacket.NewEndpoint(EndpointMAC, []byte(a))
}
func newPortEndpoint(t gopacket.EndpointType, p uint16) gopacket.Endpoint {
return gopacket.NewEndpoint(t, []byte{byte(p >> 8), byte(p)})
}
// NewTCPPortEndpoint returns an endpoint based on a TCP port.
func NewTCPPortEndpoint(p TCPPort) gopacket.Endpoint {
return newPortEndpoint(EndpointTCPPort, uint16(p))
}
// NewUDPPortEndpoint returns an endpoint based on a UDP port.
func NewUDPPortEndpoint(p UDPPort) gopacket.Endpoint {
return newPortEndpoint(EndpointUDPPort, uint16(p))
}
// NewSCTPPortEndpoint returns an endpoint based on a SCTP port.
func NewSCTPPortEndpoint(p SCTPPort) gopacket.Endpoint {
return newPortEndpoint(EndpointSCTPPort, uint16(p))
}
// NewRUDPPortEndpoint returns an endpoint based on a RUDP port.
func NewRUDPPortEndpoint(p RUDPPort) gopacket.Endpoint {
return gopacket.NewEndpoint(EndpointRUDPPort, []byte{byte(p)})
}
// NewUDPLitePortEndpoint returns an endpoint based on a UDPLite port.
func NewUDPLitePortEndpoint(p UDPLitePort) gopacket.Endpoint {
return newPortEndpoint(EndpointUDPLitePort, uint16(p))
}