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package dhcpv4
import (
"crypto/rand"
"encoding/binary"
"errors"
"fmt"
"github.com/insomniacslk/dhcp/iana"
"log"
"net"
"strings"
)
// HeaderSize is the DHCPv4 header size in bytes.
const HeaderSize = 236
// MaxMessageSize is the maximum size in bytes that a DHCPv4 packet can hold.
const MaxMessageSize = 576
// DHCPv4 represents a DHCPv4 packet header and options. See the New* functions
// to build DHCPv4 packets.
type DHCPv4 struct {
opcode OpcodeType
hwType iana.HwTypeType
hwAddrLen uint8
hopCount uint8
transactionID uint32
numSeconds uint16
flags uint16
clientIPAddr net.IP
yourIPAddr net.IP
serverIPAddr net.IP
gatewayIPAddr net.IP
clientHwAddr [16]byte
serverHostName [64]byte
bootFileName [128]byte
options []Option
}
// GenerateTransactionID generates a random 32-bits number suitable for use as
// TransactionID
func GenerateTransactionID() (*uint32, error) {
b := make([]byte, 4)
n, err := rand.Read(b)
if n != 4 {
return nil, errors.New("Invalid random sequence: smaller than 32 bits")
}
if err != nil {
return nil, err
}
tid := binary.LittleEndian.Uint32(b)
return &tid, nil
}
// New creates a new DHCPv4 structure and fill it up with default values. It
// won't be a valid DHCPv4 message so you will need to adjust its fields.
// See also NewDiscovery, NewOffer, NewRequest, NewAcknowledge, NewInform and
// NewRelease .
func New() (*DHCPv4, error) {
tid, err := GenerateTransactionID()
if err != nil {
return nil, err
}
d := DHCPv4{
opcode: OpcodeBootRequest,
hwType: iana.HwTypeEthernet,
hwAddrLen: 6,
hopCount: 0,
transactionID: *tid,
numSeconds: 0,
flags: 0,
clientIPAddr: net.IPv4zero,
yourIPAddr: net.IPv4zero,
serverIPAddr: net.IPv4zero,
gatewayIPAddr: net.IPv4zero,
}
copy(d.clientHwAddr[:], []byte{0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0})
copy(d.serverHostName[:], []byte{})
copy(d.bootFileName[:], []byte{})
options, err := OptionsFromBytes(MagicCookie)
if err != nil {
return nil, err
}
d.options = options
return &d, nil
}
// NewDiscoveryForInterface builds a new DHCPv4 Discovery message, with a default
// Ethernet HW type and the hardware address obtained from the specified
// interface.
func NewDiscoveryForInterface(ifname string) (*DHCPv4, error) {
d, err := New()
if err != nil {
return nil, err
}
// get hw addr
iface, err := net.InterfaceByName(ifname)
if err != nil {
return nil, err
}
d.SetOpcode(OpcodeBootRequest)
d.SetHwType(iana.HwTypeEthernet)
d.SetHwAddrLen(uint8(len(iface.HardwareAddr)))
d.SetClientHwAddr(iface.HardwareAddr)
d.SetBroadcast()
d.AddOption(Option{
Code: OptionDHCPMessageType,
Data: []byte{1},
})
d.AddOption(Option{
Code: OptionParameterRequestList,
Data: []byte{OptionSubnetMask, OptionRouter, OptionDomainName, OptionDomainNameServer},
})
// the End option has to be added explicitly
d.AddOption(Option{Code: OptionEnd})
return d, nil
}
// RequestFromOffer builds a DHCPv4 request from an offer.
func RequestFromOffer(offer DHCPv4) (*DHCPv4, error) {
d, err := New()
if err != nil {
return nil, err
}
d.SetOpcode(OpcodeBootRequest)
d.SetHwType(offer.HwType())
d.SetHwAddrLen(offer.HwAddrLen())
hwaddr := offer.ClientHwAddr()
d.SetClientHwAddr(hwaddr[:])
d.SetTransactionID(offer.TransactionID())
if offer.IsBroadcast() {
d.SetBroadcast()
} else {
d.SetUnicast()
}
// find server IP address
var serverIP []byte
for _, opt := range offer.options {
if opt.Code == OptionServerIdentifier {
serverIP = make([]byte, 4)
copy(serverIP, opt.Data)
}
}
if serverIP == nil {
return nil, errors.New("Missing Server IP Address in DHCP Offer")
}
d.SetServerIPAddr(serverIP)
d.AddOption(Option{
Code: OptionDHCPMessageType,
Data: []byte{3},
})
d.AddOption(Option{
Code: OptionRequestedIPAddress,
Data: offer.YourIPAddr(),
})
d.AddOption(Option{
Code: OptionServerIdentifier,
Data: serverIP,
})
// the End option has to be added explicitly
d.AddOption(Option{Code: OptionEnd})
return d, nil
}
// FromBytes encodes the DHCPv4 packet into a sequence of bytes, and returns an
// error if the packet is not valid.
func FromBytes(data []byte) (*DHCPv4, error) {
if len(data) < HeaderSize {
return nil, fmt.Errorf("Invalid DHCPv4 header: shorter than %v bytes", HeaderSize)
}
d := DHCPv4{
opcode: OpcodeType(data[0]),
hwType: iana.HwTypeType(data[1]),
hwAddrLen: data[2],
hopCount: data[3],
transactionID: binary.BigEndian.Uint32(data[4:8]),
numSeconds: binary.BigEndian.Uint16(data[8:10]),
flags: binary.BigEndian.Uint16(data[10:12]),
clientIPAddr: net.IP(data[12:16]),
yourIPAddr: net.IP(data[16:20]),
serverIPAddr: net.IP(data[20:24]),
gatewayIPAddr: net.IP(data[24:28]),
}
copy(d.clientHwAddr[:], data[28:44])
copy(d.serverHostName[:], data[44:108])
copy(d.bootFileName[:], data[108:236])
options, err := OptionsFromBytes(data[236:])
if err != nil {
return nil, err
}
d.options = options
return &d, nil
}
// Opcode returns the OpcodeType for the packet,
func (d *DHCPv4) Opcode() OpcodeType {
return d.opcode
}
// OpcodeToString returns the mnemonic name for the packet's opcode.
func (d *DHCPv4) OpcodeToString() string {
opcode := OpcodeToString[d.opcode]
if opcode == "" {
opcode = "Invalid"
}
return opcode
}
// SetOpcode sets a new opcode for the packet. It prints a warning if the opcode
// is unknown, but does not generate an error.
func (d *DHCPv4) SetOpcode(opcode OpcodeType) {
if OpcodeToString[opcode] == "" {
log.Printf("Warning: unknown DHCPv4 opcode: %v", opcode)
}
d.opcode = opcode
}
// HwType returns the hardware type as defined by IANA.
func (d *DHCPv4) HwType() iana.HwTypeType {
return d.hwType
}
// HwTypeToString returns the mnemonic name for the hardware type, e.g.
// "Ethernet". If the type is unknown, it returns "Unknown".
func (d *DHCPv4) HwTypeToString() string {
hwtype, ok := iana.HwTypeToString[d.hwType]
if !ok {
hwtype = "Invalid"
}
return hwtype
}
// SetHwType returns the hardware type as defined by IANA.
func (d *DHCPv4) SetHwType(hwType iana.HwTypeType) {
if _, ok := iana.HwTypeToString[hwType]; !ok {
log.Printf("Warning: Invalid DHCPv4 hwtype: %v", hwType)
}
d.hwType = hwType
}
// HwAddrLen returns the hardware address length. E.g. for Ethernet it would
// return 6.
func (d *DHCPv4) HwAddrLen() uint8 {
return d.hwAddrLen
}
// SetHwAddrLen sets the hardware address length, limiting it to the maximum
// size 16 that the standard allows.
func (d *DHCPv4) SetHwAddrLen(hwAddrLen uint8) {
if hwAddrLen > 16 {
log.Printf("Warning: invalid HwAddrLen: %v > 16, using 16 instead", hwAddrLen)
hwAddrLen = 16
}
d.hwAddrLen = hwAddrLen
}
// HopCount returns the hop count field.
func (d *DHCPv4) HopCount() uint8 {
return d.hopCount
}
// SetHopCount sets the hop count value.
func (d *DHCPv4) SetHopCount(hopCount uint8) {
d.hopCount = hopCount
}
// TransactionID returns the transaction ID as 32 bit unsigned integer.
func (d *DHCPv4) TransactionID() uint32 {
return d.transactionID
}
// SetTransactionID sets the value for the transaction ID.
func (d *DHCPv4) SetTransactionID(transactionID uint32) {
d.transactionID = transactionID
}
func (d *DHCPv4) NumSeconds() uint16 {
return d.numSeconds
}
func (d *DHCPv4) SetNumSeconds(numSeconds uint16) {
d.numSeconds = numSeconds
}
func (d *DHCPv4) Flags() uint16 {
return d.flags
}
func (d *DHCPv4) SetFlags(flags uint16) {
d.flags = flags
}
func (d *DHCPv4) FlagsToString() string {
flags := ""
if d.IsBroadcast() {
flags += "Broadcast"
} else {
flags += "Unicast"
}
if d.flags&0xfe != 0 {
flags += " (reserved bits not zeroed)"
}
return flags
}
func (d *DHCPv4) IsBroadcast() bool {
return d.flags&0x8000 == 0x8000
}
func (d *DHCPv4) SetBroadcast() {
d.flags |= 0x8000
}
func (d *DHCPv4) IsUnicast() bool {
return d.flags&0x8000 == 0
}
func (d *DHCPv4) SetUnicast() {
d.flags &= ^uint16(0x8000)
}
func (d *DHCPv4) ClientIPAddr() net.IP {
return d.clientIPAddr
}
func (d *DHCPv4) SetClientIPAddr(clientIPAddr net.IP) {
d.clientIPAddr = clientIPAddr
}
func (d *DHCPv4) YourIPAddr() net.IP {
return d.yourIPAddr
}
func (d *DHCPv4) SetYourIPAddr(yourIPAddr net.IP) {
d.yourIPAddr = yourIPAddr
}
func (d *DHCPv4) ServerIPAddr() net.IP {
return d.serverIPAddr
}
func (d *DHCPv4) SetServerIPAddr(serverIPAddr net.IP) {
d.serverIPAddr = serverIPAddr
}
func (d *DHCPv4) GatewayIPAddr() net.IP {
return d.gatewayIPAddr
}
func (d *DHCPv4) SetGatewayIPAddr(gatewayIPAddr net.IP) {
d.gatewayIPAddr = gatewayIPAddr
}
func (d *DHCPv4) ClientHwAddr() [16]byte {
return d.clientHwAddr
}
func (d *DHCPv4) ClientHwAddrToString() string {
var ret []string
for _, b := range d.clientHwAddr[:d.hwAddrLen] {
ret = append(ret, fmt.Sprintf("%02x", b))
}
return strings.Join(ret, ":")
}
func (d *DHCPv4) SetClientHwAddr(clientHwAddr []byte) {
if len(clientHwAddr) > 16 {
log.Printf("Warning: too long HW Address (%d bytes), truncating to 16 bytes", len(clientHwAddr))
clientHwAddr = clientHwAddr[:16]
}
copy(d.clientHwAddr[:len(clientHwAddr)], clientHwAddr)
// pad the remaining bytes, if any
for i := len(clientHwAddr); i < 16; i++ {
d.clientHwAddr[i] = 0
}
}
// ServerHostName returns the server host name as a sequence of bytes.
func (d *DHCPv4) ServerHostName() [64]byte {
return d.serverHostName
}
// ServerHostNameToString returns the server host name as a string, after
// trimming the null bytes at the end.
func (d *DHCPv4) ServerHostNameToString() string {
return strings.TrimRight(string(d.serverHostName[:]), "\x00")
}
// SetServerHostName replaces the server host name, from a sequence of bytes,
// truncating it to the maximum length of 64.
func (d *DHCPv4) SetServerHostName(serverHostName []byte) {
if len(serverHostName) > 64 {
serverHostName = serverHostName[:64]
} else if len(serverHostName) < 64 {
for i := len(serverHostName) - 1; i < 64; i++ {
serverHostName = append(serverHostName, 0)
}
}
// need an array, not a slice, so let's copy it
var newServerHostName [64]byte
copy(newServerHostName[:], serverHostName)
d.serverHostName = newServerHostName
}
// BootFileName returns the boot file name as a sequence of bytes.
func (d *DHCPv4) BootFileName() [128]byte {
return d.bootFileName
}
// BootFileNameToString returns the boot file name as a string, after trimming
// the null bytes at the end.
func (d *DHCPv4) BootFileNameToString() string {
return strings.TrimRight(string(d.bootFileName[:]), "\x00")
}
// SetBootFileName replaces the boot file name, from a sequence of bytes,
// truncating it to the maximum length oh 128.
func (d *DHCPv4) SetBootFileName(bootFileName []byte) {
if len(bootFileName) > 128 {
bootFileName = bootFileName[:128]
} else if len(bootFileName) < 128 {
for i := len(bootFileName) - 1; i < 128; i++ {
bootFileName = append(bootFileName, 0)
}
}
// need an array, not a slice, so let's copy it
var newBootFileName [128]byte
copy(newBootFileName[:], bootFileName)
d.bootFileName = newBootFileName
}
// Options returns the DHCPv4 options defined for the packet.
func (d *DHCPv4) Options() []Option {
return d.options
}
// StrippedOptions works like Options, but it does not return anything after the
// End option.
func (d *DHCPv4) StrippedOptions() []Option {
// differently from Options() this function strips away anything coming
// after the End option (normally just Pad options).
strippedOptions := []Option{}
for _, opt := range d.options {
strippedOptions = append(strippedOptions, opt)
if opt.Code == OptionEnd {
break
}
}
return strippedOptions
}
// SetOptions replaces the current options with the provided ones.
func (d *DHCPv4) SetOptions(options []Option) {
d.options = options
}
// AddOption appends an option to the existing ones.
func (d *DHCPv4) AddOption(option Option) {
d.options = append(d.options, option)
}
func (d *DHCPv4) String() string {
return fmt.Sprintf("DHCPv4(opcode=%v hwtype=%v hwaddr=%v)",
d.OpcodeToString(), d.HwTypeToString(), d.ClientHwAddr())
}
// Summary prints detailed information about the packet.
func (d *DHCPv4) Summary() string {
ret := fmt.Sprintf(
"DHCPv4\n"+
" opcode=%v\n"+
" hwtype=%v\n"+
" hwaddrlen=%v\n"+
" hopcount=%v\n"+
" transactionid=0x%08x\n"+
" numseconds=%v\n"+
" flags=%v (0x%02x)\n"+
" clientipaddr=%v\n"+
" youripaddr=%v\n"+
" serveripaddr=%v\n"+
" gatewayipaddr=%v\n"+
" clienthwaddr=%v\n"+
" serverhostname=%v\n"+
" bootfilename=%v\n",
d.OpcodeToString(),
d.HwTypeToString(),
d.HwAddrLen(),
d.HopCount(),
d.TransactionID(),
d.NumSeconds(),
d.FlagsToString(),
d.Flags(),
d.ClientIPAddr(),
d.YourIPAddr(),
d.ServerIPAddr(),
d.GatewayIPAddr(),
d.ClientHwAddrToString(),
d.ServerHostNameToString(),
d.BootFileNameToString(),
)
ret += " options=\n"
for _, opt := range d.options {
ret += fmt.Sprintf(" %v\n", opt.String())
if opt.Code == OptionEnd {
break
}
}
return ret
}
// ValidateOptions runs sanity checks on the DHCPv4 packet and prints a number
// of warnings if something is incorrect.
func (d *DHCPv4) ValidateOptions() {
// TODO find duplicate options
foundOptionEnd := false
for _, opt := range d.options {
if foundOptionEnd {
if opt.Code == OptionEnd {
log.Print("Warning: found duplicate End option")
}
if opt.Code != OptionEnd && opt.Code != OptionPad {
name := OptionCodeToString[opt.Code]
log.Printf("Warning: found option %v (%v) after End option", opt.Code, name)
}
}
if opt.Code == OptionEnd {
foundOptionEnd = true
}
}
if !foundOptionEnd {
log.Print("Warning: no End option found")
}
}
// ToBytes encodes a DHCPv4 structure into a sequence of bytes in its wire
// format.
func (d *DHCPv4) ToBytes() []byte {
// This won't check if the End option is present, you've been warned
var ret []byte
u32 := make([]byte, 4)
u16 := make([]byte, 2)
ret = append(ret, byte(d.opcode))
ret = append(ret, byte(d.hwType))
ret = append(ret, byte(d.hwAddrLen))
ret = append(ret, byte(d.hopCount))
binary.BigEndian.PutUint32(u32, d.transactionID)
ret = append(ret, u32...)
binary.BigEndian.PutUint16(u16, d.numSeconds)
ret = append(ret, u16...)
binary.BigEndian.PutUint16(u16, d.flags)
ret = append(ret, u16...)
ret = append(ret, d.clientIPAddr[:4]...)
ret = append(ret, d.yourIPAddr[:4]...)
ret = append(ret, d.serverIPAddr[:4]...)
ret = append(ret, d.gatewayIPAddr[:4]...)
ret = append(ret, d.clientHwAddr[:16]...)
ret = append(ret, d.serverHostName[:64]...)
ret = append(ret, d.bootFileName[:128]...)
d.ValidateOptions() // print warnings about broken options, if any
ret = append(ret, OptionsToBytes(d.options)...)
return ret
}
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