// Copyright (c) 2020 Tailscale Inc & AUTHORS All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package packet import ( "fmt" "net" "inet.af/netaddr" ) // IP is an IPv4 address. type IP uint32 // NewIP converts a standard library IP address into an IP. // It panics if b is not an IPv4 address. func NewIP(b net.IP) IP { b4 := b.To4() if b4 == nil { panic(fmt.Sprintf("To4(%v) failed", b)) } return IP(get32(b4)) } // IPFromNetaddr converts a netaddr.IP to an IP. func IPFromNetaddr(ip netaddr.IP) IP { ipbytes := ip.As4() return IP(get32(ipbytes[:])) } // Netaddr converts an IP to a netaddr.IP. func (ip IP) Netaddr() netaddr.IP { return netaddr.IPv4(byte(ip>>24), byte(ip>>16), byte(ip>>8), byte(ip)) } func (ip IP) String() string { return fmt.Sprintf("%d.%d.%d.%d", byte(ip>>24), byte(ip>>16), byte(ip>>8), byte(ip)) } func (ip IP) IsMulticast() bool { return byte(ip>>24)&0xf0 == 0xe0 } // IPProto is either a real IP protocol (ITCP, UDP, ...) or an special value like Unknown. // If it is a real IP protocol, its value corresponds to its IP protocol number. type IPProto uint8 const ( // Unknown represents an unknown or unsupported protocol; it's deliberately the zero value. Unknown IPProto = 0x00 ICMP IPProto = 0x01 IGMP IPProto = 0x02 ICMPv6 IPProto = 0x3a TCP IPProto = 0x06 UDP IPProto = 0x11 // Fragment is a special value. It's not really an IPProto value // so we're using the unassigned 0xFF value. // TODO(dmytro): special values should be taken out of here. Fragment IPProto = 0xFF ) func (p IPProto) String() string { switch p { case Fragment: return "Frag" case ICMP: return "ICMP" case UDP: return "UDP" case TCP: return "TCP" default: return "Unknown" } } // IPHeader represents an IP packet header. type IPHeader struct { IPProto IPProto IPID uint16 SrcIP IP DstIP IP } const ipHeaderLength = 20 func (IPHeader) Len() int { return ipHeaderLength } func (h IPHeader) Marshal(buf []byte) error { if len(buf) < ipHeaderLength { return errSmallBuffer } if len(buf) > maxPacketLength { return errLargePacket } buf[0] = 0x40 | (ipHeaderLength >> 2) // IPv4 buf[1] = 0x00 // DHCP, ECN put16(buf[2:4], uint16(len(buf))) put16(buf[4:6], h.IPID) put16(buf[6:8], 0) // flags, offset buf[8] = 64 // TTL buf[9] = uint8(h.IPProto) put16(buf[10:12], 0) // blank IP header checksum put32(buf[12:16], uint32(h.SrcIP)) put32(buf[16:20], uint32(h.DstIP)) put16(buf[10:12], ipChecksum(buf[0:20])) return nil } // MarshalPseudo serializes the header into buf in pseudo format. // It clobbers the header region, which is the first h.Length() bytes of buf. // It explicitly initializes every byte of the header region, // so pre-zeroing it on reuse is not required. It does not allocate memory. func (h IPHeader) MarshalPseudo(buf []byte) error { if len(buf) < ipHeaderLength { return errSmallBuffer } if len(buf) > maxPacketLength { return errLargePacket } length := len(buf) - ipHeaderLength put32(buf[8:12], uint32(h.SrcIP)) put32(buf[12:16], uint32(h.DstIP)) buf[16] = 0x0 buf[17] = uint8(h.IPProto) put16(buf[18:20], uint16(length)) return nil } func (h *IPHeader) ToResponse() { h.SrcIP, h.DstIP = h.DstIP, h.SrcIP // Flip the bits in the IPID. If incoming IPIDs are distinct, so are these. h.IPID = ^h.IPID }