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/*
* Copyright 2014 Open Networking Laboratory
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.onlab.packet;
import java.io.UnsupportedEncodingException;
import java.nio.ByteBuffer;
import java.util.ArrayList;
import java.util.List;
import java.util.ListIterator;
import static com.google.common.base.Preconditions.checkArgument;
import static org.onlab.packet.PacketUtils.checkInput;
/**
*
*/
public class DHCP extends BasePacket {
/**
* Dynamic Host Configuration Protocol packet.
* ------------------------------------------ |op (1) | htype(1) | hlen(1) |
* hops(1) | ------------------------------------------ | xid (4) |
* ------------------------------------------ | secs (2) | flags (2) |
* ------------------------------------------ | ciaddr (4) |
* ------------------------------------------ | yiaddr (4) |
* ------------------------------------------ | siaddr (4) |
* ------------------------------------------ | giaddr (4) |
* ------------------------------------------ | chaddr (16) |
* ------------------------------------------ | sname (64) |
* ------------------------------------------ | file (128) |
* ------------------------------------------ | options (312) |
* ------------------------------------------
*
*/
// Header + magic without options
public static final int MIN_HEADER_LENGTH = 240;
public static final byte OPCODE_REQUEST = 0x1;
public static final byte OPCODE_REPLY = 0x2;
public static final byte HWTYPE_ETHERNET = 0x1;
public enum DHCPOptionCode {
OptionCode_SubnetMask((byte) 1), OptionCode_RouterAddress((byte) 3), OptionCode_DomainServer((byte) 6),
OptionCode_HostName((byte) 12), OptionCode_DomainName((byte) 15), OptionCode_BroadcastAddress((byte) 28),
OptionCode_RequestedIP((byte) 50), OptionCode_LeaseTime((byte) 51), OptionCode_MessageType((byte) 53),
OptionCode_DHCPServerIp((byte) 54), OptionCode_RequestedParameters((byte) 55),
OptionCode_RenewalTime((byte) 58), OPtionCode_RebindingTime((byte) 59), OptionCode_ClientID((byte) 61),
OptionCode_END((byte) 255);
protected byte value;
private DHCPOptionCode(final byte value) {
this.value = value;
}
public byte getValue() {
return this.value;
}
}
protected byte opCode;
protected byte hardwareType;
protected byte hardwareAddressLength;
protected byte hops;
protected int transactionId;
protected short seconds;
protected short flags;
protected int clientIPAddress;
protected int yourIPAddress;
protected int serverIPAddress;
protected int gatewayIPAddress;
protected byte[] clientHardwareAddress;
protected String serverName;
protected String bootFileName;
protected List<DHCPOption> options = new ArrayList<DHCPOption>();
/**
* @return the opCode
*/
public byte getOpCode() {
return this.opCode;
}
/**
* @param opCode
* the opCode to set
* @return this
*/
public DHCP setOpCode(final byte opCode) {
this.opCode = opCode;
return this;
}
/**
* @return the hardwareType
*/
public byte getHardwareType() {
return this.hardwareType;
}
/**
* @param hardwareType
* the hardwareType to set
* @return this
*/
public DHCP setHardwareType(final byte hardwareType) {
this.hardwareType = hardwareType;
return this;
}
/**
* @return the hardwareAddressLength
*/
public byte getHardwareAddressLength() {
return this.hardwareAddressLength;
}
/**
* @param hardwareAddressLength
* the hardwareAddressLength to set
* @return this
*/
public DHCP setHardwareAddressLength(final byte hardwareAddressLength) {
this.hardwareAddressLength = hardwareAddressLength;
return this;
}
/**
* @return the hops
*/
public byte getHops() {
return this.hops;
}
/**
* @param hops
* the hops to set
* @return this
*/
public DHCP setHops(final byte hops) {
this.hops = hops;
return this;
}
/**
* @return the transactionId
*/
public int getTransactionId() {
return this.transactionId;
}
/**
* @param transactionId
* the transactionId to set
* @return this
*/
public DHCP setTransactionId(final int transactionId) {
this.transactionId = transactionId;
return this;
}
/**
* @return the seconds
*/
public short getSeconds() {
return this.seconds;
}
/**
* @param seconds
* the seconds to set
* @return this
*/
public DHCP setSeconds(final short seconds) {
this.seconds = seconds;
return this;
}
/**
* @return the flags
*/
public short getFlags() {
return this.flags;
}
/**
* @param flags
* the flags to set
* @return this
*/
public DHCP setFlags(final short flags) {
this.flags = flags;
return this;
}
/**
* @return the clientIPAddress
*/
public int getClientIPAddress() {
return this.clientIPAddress;
}
/**
* @param clientIPAddress
* the clientIPAddress to set
* @return this
*/
public DHCP setClientIPAddress(final int clientIPAddress) {
this.clientIPAddress = clientIPAddress;
return this;
}
/**
* @return the yourIPAddress
*/
public int getYourIPAddress() {
return this.yourIPAddress;
}
/**
* @param yourIPAddress
* the yourIPAddress to set
* @return this
*/
public DHCP setYourIPAddress(final int yourIPAddress) {
this.yourIPAddress = yourIPAddress;
return this;
}
/**
* @return the serverIPAddress
*/
public int getServerIPAddress() {
return this.serverIPAddress;
}
/**
* @param serverIPAddress
* the serverIPAddress to set
* @return this
*/
public DHCP setServerIPAddress(final int serverIPAddress) {
this.serverIPAddress = serverIPAddress;
return this;
}
/**
* @return the gatewayIPAddress
*/
public int getGatewayIPAddress() {
return this.gatewayIPAddress;
}
/**
* @param gatewayIPAddress
* the gatewayIPAddress to set
* @return this
*/
public DHCP setGatewayIPAddress(final int gatewayIPAddress) {
this.gatewayIPAddress = gatewayIPAddress;
return this;
}
/**
* @return the clientHardwareAddress
*/
public byte[] getClientHardwareAddress() {
return this.clientHardwareAddress;
}
/**
* @param clientHardwareAddress
* the clientHardwareAddress to set
* @return this
*/
public DHCP setClientHardwareAddress(final byte[] clientHardwareAddress) {
this.clientHardwareAddress = clientHardwareAddress;
return this;
}
/**
* Gets a specific DHCP option parameter.
*
* @param optionCode
* The option code to get
* @return The value of the option if it exists, null otherwise
*/
public DHCPOption getOption(final DHCPOptionCode optionCode) {
for (final DHCPOption opt : this.options) {
if (opt.code == optionCode.value) {
return opt;
}
}
return null;
}
/**
* @return the options
*/
public List<DHCPOption> getOptions() {
return this.options;
}
/**
* @param options
* the options to set
* @return this
*/
public DHCP setOptions(final List<DHCPOption> options) {
this.options = options;
return this;
}
/**
* @return the packetType base on option 53
*/
public DHCPPacketType getPacketType() {
final ListIterator<DHCPOption> lit = this.options.listIterator();
while (lit.hasNext()) {
final DHCPOption option = lit.next();
// only care option 53
if (option.getCode() == 53) {
return DHCPPacketType.getType(option.getData()[0]);
}
}
return null;
}
/**
* @return the serverName
*/
public String getServerName() {
return this.serverName;
}
/**
* @param server
* the serverName to set
* @return this
*/
public DHCP setServerName(final String server) {
this.serverName = server;
return this;
}
/**
* @return the bootFileName
*/
public String getBootFileName() {
return this.bootFileName;
}
/**
* @param bootFile
* the bootFileName to set
* @return this
*/
public DHCP setBootFileName(final String bootFile) {
this.bootFileName = bootFile;
return this;
}
@Override
public byte[] serialize() {
// not guaranteed to retain length/exact format
this.resetChecksum();
// minimum size 240 including magic cookie, options generally padded to
// 300
int optionsLength = 0;
for (final DHCPOption option : this.options) {
if (option.getCode() == 0 || option.getCode() == ((byte) 255)) {
optionsLength += 1;
} else {
optionsLength += 2 + (0xff & option.getLength());
}
}
int optionsPadLength = 0;
if (optionsLength < 60) {
optionsPadLength = 60 - optionsLength;
}
final byte[] data = new byte[240 + optionsLength + optionsPadLength];
final ByteBuffer bb = ByteBuffer.wrap(data);
bb.put(this.opCode);
bb.put(this.hardwareType);
bb.put(this.hardwareAddressLength);
bb.put(this.hops);
bb.putInt(this.transactionId);
bb.putShort(this.seconds);
bb.putShort(this.flags);
bb.putInt(this.clientIPAddress);
bb.putInt(this.yourIPAddress);
bb.putInt(this.serverIPAddress);
bb.putInt(this.gatewayIPAddress);
checkArgument(this.clientHardwareAddress.length <= 16,
"Hardware address is too long (%s bytes)", this.clientHardwareAddress.length);
bb.put(this.clientHardwareAddress);
if (this.clientHardwareAddress.length < 16) {
for (int i = 0; i < 16 - this.clientHardwareAddress.length; ++i) {
bb.put((byte) 0x0);
}
}
this.writeString(this.serverName, bb, 64);
this.writeString(this.bootFileName, bb, 128);
// magic cookie
bb.put((byte) 0x63);
bb.put((byte) 0x82);
bb.put((byte) 0x53);
bb.put((byte) 0x63);
for (final DHCPOption option : this.options) {
final int code = option.getCode() & 0xff;
bb.put((byte) code);
if (code != 0 && code != 255) {
bb.put(option.getLength());
bb.put(option.getData());
}
}
// assume the rest is padded out with zeroes
return data;
}
@Override
public IPacket deserialize(final byte[] data, final int offset,
final int length) {
final ByteBuffer bb = ByteBuffer.wrap(data, offset, length);
if (bb.remaining() < DHCP.MIN_HEADER_LENGTH) {
return this;
}
this.opCode = bb.get();
this.hardwareType = bb.get();
this.hardwareAddressLength = bb.get();
this.hops = bb.get();
this.transactionId = bb.getInt();
this.seconds = bb.getShort();
this.flags = bb.getShort();
this.clientIPAddress = bb.getInt();
this.yourIPAddress = bb.getInt();
this.serverIPAddress = bb.getInt();
this.gatewayIPAddress = bb.getInt();
final int hardwareAddressLength = 0xff & this.hardwareAddressLength;
this.clientHardwareAddress = new byte[hardwareAddressLength];
bb.get(this.clientHardwareAddress);
for (int i = hardwareAddressLength; i < 16; ++i) {
bb.get();
}
this.serverName = this.readString(bb, 64);
this.bootFileName = this.readString(bb, 128);
// read the magic cookie
// magic cookie
bb.get();
bb.get();
bb.get();
bb.get();
// read options
while (bb.hasRemaining()) {
final DHCPOption option = new DHCPOption();
int code = 0xff & bb.get(); // convert signed byte to int in range
// [0,255]
option.setCode((byte) code);
if (code == 0) {
// skip these
continue;
} else if (code != 255) {
if (bb.hasRemaining()) {
final int l = 0xff & bb.get(); // convert signed byte to
// int in range [0,255]
option.setLength((byte) l);
if (bb.remaining() >= l) {
final byte[] optionData = new byte[l];
bb.get(optionData);
option.setData(optionData);
} else {
// Skip the invalid option and set the END option
code = 0xff;
option.setCode((byte) code);
option.setLength((byte) 0);
}
} else {
// Skip the invalid option and set the END option
code = 0xff;
option.setCode((byte) code);
option.setLength((byte) 0);
}
}
this.options.add(option);
if (code == 255) {
// remaining bytes are supposed to be 0, but ignore them just in
// case
break;
}
}
return this;
}
protected void writeString(final String string, final ByteBuffer bb,
final int maxLength) {
if (string == null) {
for (int i = 0; i < maxLength; ++i) {
bb.put((byte) 0x0);
}
} else {
byte[] bytes = null;
try {
bytes = string.getBytes("ascii");
} catch (final UnsupportedEncodingException e) {
throw new RuntimeException("Failure encoding server name", e);
}
int writeLength = bytes.length;
if (writeLength > maxLength) {
writeLength = maxLength;
}
bb.put(bytes, 0, writeLength);
for (int i = writeLength; i < maxLength; ++i) {
bb.put((byte) 0x0);
}
}
}
private static String readString(final ByteBuffer bb, final int maxLength) {
final byte[] bytes = new byte[maxLength];
bb.get(bytes);
String result = null;
try {
result = new String(bytes, "ascii").trim();
} catch (final UnsupportedEncodingException e) {
throw new RuntimeException("Failure decoding string", e);
}
return result;
}
/**
* Deserializer function for DHCP packets.
*
* @return deserializer function
*/
public static Deserializer<DHCP> deserializer() {
return (data, offset, length) -> {
checkInput(data, offset, length, MIN_HEADER_LENGTH);
ByteBuffer bb = ByteBuffer.wrap(data, offset, length);
DHCP dhcp = new DHCP();
dhcp.opCode = bb.get();
dhcp.hardwareType = bb.get();
dhcp.hardwareAddressLength = bb.get();
dhcp.hops = bb.get();
dhcp.transactionId = bb.getInt();
dhcp.seconds = bb.getShort();
dhcp.flags = bb.getShort();
dhcp.clientIPAddress = bb.getInt();
dhcp.yourIPAddress = bb.getInt();
dhcp.serverIPAddress = bb.getInt();
dhcp.gatewayIPAddress = bb.getInt();
final int hardwareAddressLength = 0xff & dhcp.hardwareAddressLength;
dhcp.clientHardwareAddress = new byte[hardwareAddressLength];
bb.get(dhcp.clientHardwareAddress);
for (int i = hardwareAddressLength; i < 16; ++i) {
bb.get();
}
dhcp.serverName = readString(bb, 64);
dhcp.bootFileName = readString(bb, 128);
// read the magic cookie
// magic cookie
bb.get();
bb.get();
bb.get();
bb.get();
// read options
boolean foundEndOptionsMarker = false;
while (bb.hasRemaining()) {
final DHCPOption option = new DHCPOption();
int code = 0xff & bb.get(); // convert signed byte to int in range
// [0,255]
option.setCode((byte) code);
if (code == 0) {
// skip these
continue;
} else if (code != 255) {
if (bb.hasRemaining()) {
final int l = 0xff & bb.get(); // convert signed byte to
// int in range [0,255]
option.setLength((byte) l);
if (bb.remaining() >= l) {
final byte[] optionData = new byte[l];
bb.get(optionData);
option.setData(optionData);
dhcp.options.add(option);
} else {
throw new DeserializationException(
"Buffer underflow while reading DHCP option");
}
}
} else if (code == 255) {
DHCPOption end = new DHCPOption();
end.setCode((byte) 255);
dhcp.options.add(end);
// remaining bytes are supposed to be 0, but ignore them just in
// case
foundEndOptionsMarker = true;
break;
}
}
if (!foundEndOptionsMarker) {
throw new DeserializationException("DHCP End options marker was missing");
}
return dhcp;
};
}
}
|
