Java tutorial
/* * Copyright 2001-2005 The Apache Software Foundation * * 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.eredlab.g4.ccl.net.tftp; import java.net.DatagramPacket; import java.net.InetAddress; /*** * TFTPPacket is an abstract class encapsulating the functionality common * to the 5 types of TFTP packets. It also provides a static factory * method that will create the correct TFTP packet instance from a * datagram. This relieves the programmer from having to figure out what * kind of TFTP packet is contained in a datagram and create it himself. * <p> * Details regarding the TFTP protocol and the format of TFTP packets can * be found in RFC 783. But the point of these classes is to keep you * from having to worry about the internals. Additionally, only very * few people should have to care about any of the TFTPPacket classes * or derived classes. Almost all users should only be concerned with the * {@link org.apache.commons.net.tftp.TFTPClient} class * {@link org.apache.commons.net.tftp.TFTPClient#receiveFile receiveFile()} * and * {@link org.apache.commons.net.tftp.TFTPClient#sendFile sendFile()} * methods. * <p> * <p> * @author Daniel F. Savarese * @see TFTPPacketException * @see TFTP ***/ public abstract class TFTPPacket { /*** * The minimum size of a packet. This is 4 bytes. It is enough * to store the opcode and blocknumber or other required data * depending on the packet type. ***/ static final int MIN_PACKET_SIZE = 4; /*** * This is the actual TFTP spec * identifier and is equal to 1. * Identifier returned by {@link #getType getType()} * indicating a read request packet. ***/ public static final int READ_REQUEST = 1; /*** * This is the actual TFTP spec * identifier and is equal to 2. * Identifier returned by {@link #getType getType()} * indicating a write request packet. ***/ public static final int WRITE_REQUEST = 2; /*** * This is the actual TFTP spec * identifier and is equal to 3. * Identifier returned by {@link #getType getType()} * indicating a data packet. ***/ public static final int DATA = 3; /*** * This is the actual TFTP spec * identifier and is equal to 4. * Identifier returned by {@link #getType getType()} * indicating an acknowledgement packet. ***/ public static final int ACKNOWLEDGEMENT = 4; /*** * This is the actual TFTP spec * identifier and is equal to 5. * Identifier returned by {@link #getType getType()} * indicating an error packet. ***/ public static final int ERROR = 5; /*** * The TFTP data packet maximum segment size in bytes. This is 512 * and is useful for those familiar with the TFTP protocol who want * to use the {@link org.apache.commons.net.tftp.TFTP} * class methods to implement their own TFTP servers or clients. ***/ public static final int SEGMENT_SIZE = 512; /*** The type of packet. ***/ int _type; /*** The port the packet came from or is going to. ***/ int _port; /*** The host the packet is going to be sent or where it came from. ***/ InetAddress _address; /*** * When you receive a datagram that you expect to be a TFTP packet, you use * this factory method to create the proper TFTPPacket object * encapsulating the data contained in that datagram. This method is the * only way you can instantiate a TFTPPacket derived class from a * datagram. * <p> * @param datagram The datagram containing a TFTP packet. * @return The TFTPPacket object corresponding to the datagram. * @exception TFTPPacketException If the datagram does not contain a valid * TFTP packet. ***/ public final static TFTPPacket newTFTPPacket(DatagramPacket datagram) throws TFTPPacketException { byte[] data; TFTPPacket packet = null; if (datagram.getLength() < MIN_PACKET_SIZE) throw new TFTPPacketException("Bad packet. Datagram data length is too short."); data = datagram.getData(); switch (data[1]) { case READ_REQUEST: packet = new TFTPReadRequestPacket(datagram); break; case WRITE_REQUEST: packet = new TFTPWriteRequestPacket(datagram); break; case DATA: packet = new TFTPDataPacket(datagram); break; case ACKNOWLEDGEMENT: packet = new TFTPAckPacket(datagram); break; case ERROR: packet = new TFTPErrorPacket(datagram); break; default: throw new TFTPPacketException("Bad packet. Invalid TFTP operator code."); } return packet; } /*** * This constructor is not visible outside of the package. It is used * by subclasses within the package to initialize base data. * <p> * @param type The type of the packet. * @param address The host the packet came from or is going to be sent. * @param port The port the packet came from or is going to be sent. **/ TFTPPacket(int type, InetAddress address, int port) { _type = type; _address = address; _port = port; } /*** * This is an abstract method only available within the package for * implementing efficient datagram transport by elminating buffering. * It takes a datagram as an argument, and a byte buffer in which * to store the raw datagram data. Inside the method, the data * should be set as the datagram's data and the datagram returned. * <p> * @param datagram The datagram to create. * @param data The buffer to store the packet and to use in the datagram. * @return The datagram argument. ***/ abstract DatagramPacket _newDatagram(DatagramPacket datagram, byte[] data); /*** * Creates a UDP datagram containing all the TFTP packet * data in the proper format. * This is an abstract method, exposed to the programmer in case he * wants to implement his own TFTP client instead of using * the {@link org.apache.commons.net.tftp.TFTPClient} * class. * Under normal circumstances, you should not have a need to call this * method. * <p> * @return A UDP datagram containing the TFTP packet. ***/ public abstract DatagramPacket newDatagram(); /*** * Returns the type of the packet. * <p> * @return The type of the packet. ***/ public final int getType() { return _type; } /*** * Returns the address of the host where the packet is going to be sent * or where it came from. * <p> * @return The type of the packet. ***/ public final InetAddress getAddress() { return _address; } /*** * Returns the port where the packet is going to be sent * or where it came from. * <p> * @return The port where the packet came from or where it is going. ***/ public final int getPort() { return _port; } /*** Sets the port where the packet is going to be sent. ***/ public final void setPort(int port) { _port = port; } /*** Sets the host address where the packet is going to be sent. ***/ public final void setAddress(InetAddress address) { _address = address; } }