1 /**

     2  * Java RTP Library (jlibrtp)

     3  * Copyright (C) 2006 Arne Kepp

     4  * 

     5  * This library is free software; you can redistribute it and/or

     6  * modify it under the terms of the GNU Lesser General Public

     7  * License as published by the Free Software Foundation; either

     8  * version 2.1 of the License, or (at your option) any later version.

     9  *

    10  * This library is distributed in the hope that it will be useful,

    11  * but WITHOUT ANY WARRANTY; without even the implied warranty of

    12  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU

    13  * Lesser General Public License for more details.

    14  * 

    15  * You should have received a copy of the GNU Lesser General Public

    16  * License along with this library; if not, write to the Free Software

    17  * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301  USA

    18  */

    19 package jlibrtp;

    20 import java.util.*;

    21 import java.net.InetSocketAddress;

    22 

    23 /**

    24  * Compound RTCP packet class.

    25  * 

    26  * It basically holds a list of packets. This list can either be constructed

    27  * by providing a byte[] of a compound packet, or by adding individual packets.

    28  * 

    29  * Upon encode(), the packet will call encode on all the added packets.

    30  * 

    31  * problem == 0 indicates the parsing succeeded.

    32  * 

    33  * 

    34  * @author Arne Kepp

    35  */

    36 

    37 public class CompRtcpPkt {

    38 	/** Problem indicator, negative values denote packet type that cause problem */

    39 	protected int problem = 0;

    40 	/** Stores the different subclasses of RtcpPkt that make up the compound packet */

    41 	protected LinkedList<RtcpPkt> rtcpPkts = new LinkedList<RtcpPkt>();

    42 	

    43 	/**

    44 	 * Instantiates an empty Compound RTCP packet to which you can add RTCP packets

    45 	 */

    46 	protected CompRtcpPkt() {

    47 		// Will have to add packets directly to rtcpPkts.

    48 		if(RTPSession.rtpDebugLevel > 7) {

    49 			System.out.println("<-> CompRtcpPkt()");

    50 		}

    51 	}

    52 	

    53 	/**

    54 	 * Add a RTCP packet to the compound packet. Pakcets are added in order,

    55 	 * so you have to ensure that a Sender Report or Receiver Report is 

    56 	 * added first.

    57 	 * 

    58 	 * @param aPkt the packet to be added

    59 	 */

    60 	protected void addPacket(RtcpPkt aPkt) {

    61 		if(RTPSession.rtpDebugLevel > 11) {

    62 			System.out.println("  <-> CompRtcpPkt.addPacket( "+ aPkt.getClass() + " )");

    63 		}

    64 		

    65 		if(aPkt.problem == 0) {

    66 			rtcpPkts.add(aPkt);

    67 		} else {

    68 			this.problem = aPkt.problem;

    69 		}

    70 	}

    71 	

    72 	/**

    73 	 * Picks a received Compound RTCP packet apart.

    74 	 * 

    75 	 * Only SDES packets are processed directly, other packets are

    76 	 * parsed and put into aComptRtcpPkt.rtcpPkts, but not 

    77 	 * 

    78 	 * Check the aComptRtcpPkt.problem , if the value is non-zero

    79 	 * the packets should probably be discarded.

    80 	 * 

    81 	 * @param rawPkt the byte array received from the socket

    82 	 * @param packetSize the actual number of used bytes

    83 	 * @param adr the socket address from which the packet was received

    84 	 * @param rtpSession the RTPSession with the participant database

    85 	 */

    86 	protected CompRtcpPkt(byte[] rawPkt, int packetSize, InetSocketAddress adr, RTPSession rtpSession) {

    87 		if(RTPSession.rtcpDebugLevel > 7) {

    88 			System.out.println("-> CompRtcpPkt(" + rawPkt.getClass() + ", size " + packetSize + ", from " + adr.toString() + ", " + rtpSession.getClass() + ")");

    89 		}

    90 		//System.out.println("rawPkt.length:" + rawPkt.length + " packetSize:" + packetSize);

    91 		

    92 		// Chop it up

    93 		int start = 0;

    94 

    95 		while(start < packetSize && problem == 0) {

    96 			int length = (StaticProcs.bytesToUIntInt(rawPkt, start + 2)) + 1;

    97 			

    98 			if(length*4 + start > rawPkt.length) {

    99 				System.out.println("!!!! CompRtcpPkt.(rawPkt,..,..) length ("+ (length*4+start)

   100 						+ ") exceeds size of raw packet ("+rawPkt.length+") !");

   101 				this.problem = -3;

   102 			}

   103 			

   104 			int pktType = (int) rawPkt[start + 1];

   105 			

   106 			if(pktType < 0) {

   107 				pktType += 256;

   108 			}

   109 			

   110 			

   111 			if(start == 0) {

   112 				// Compound packets need to start with SR or RR

   113 				if(pktType != 200 && pktType != 201 ) {

   114 					if(RTPSession.rtcpDebugLevel > 3) {

   115 						System.out.println("!!!! CompRtcpPkt(rawPkt...) packet did not start with SR or RR");

   116 					}

   117 					this.problem = -1;

   118 				}

   119 				

   120 				// Padding bit should be zero for the first packet

   121 				if(((rawPkt[start] & 0x20) >>> 5) == 1) {

   122 					if(RTPSession.rtcpDebugLevel > 3) {

   123 						System.out.println("!!!! CompRtcpPkt(rawPkt...) first packet was padded");

   124 					}

   125 					this.problem = -2;

   126 				}

   127 			}

   128 			

   129 			//System.out.println("start: " + start + "   pktType: " + pktType + "  length:" + length );			

   130 			if(pktType == 200) {

   131 				addPacket(new RtcpPktSR(rawPkt,start,length*4));

   132 			} else if(pktType == 201 ) {

   133 				addPacket(new RtcpPktRR(rawPkt,start, -1));

   134 			} else if(pktType == 202) {

   135 				addPacket(new RtcpPktSDES(rawPkt,start, adr, rtpSession.partDb));

   136 			} else if(pktType == 203 ) {

   137 				addPacket(new RtcpPktBYE(rawPkt,start));

   138 			} else if(pktType == 204) {

   139 				addPacket(new RtcpPktAPP(rawPkt,start));

   140 			} else if(pktType == 205) {

   141 				addPacket(new RtcpPktRTPFB(rawPkt,start, rtpSession));

   142 			} else if(pktType == 206) {

   143 				addPacket(new RtcpPktPSFB(rawPkt,start,rtpSession));

   144 			} else {

   145 				System.out.println("!!!! CompRtcpPkt(byte[] rawPkt, int packetSize...) "

   146 						+"UNKNOWN RTCP PACKET TYPE:" + pktType);

   147 			}

   148 			

   149 			//System.out.println(" start:" + start + "  pktType:" + pktType + " length:" + length);

   150 			

   151 			start += length*4;

   152 			

   153 			if(RTPSession.rtcpDebugLevel > 12) {

   154 				System.out.println(" start:"+start+"  parsing pktType "+pktType+" length: "+length);

   155 			}

   156 		}

   157 		if(RTPSession.rtcpDebugLevel > 7) {

   158 			System.out.println("<- CompRtcpPkt(rawPkt....)");

   159 		}

   160 	}

   161 	

   162 	/**

   163 	 * Encode combines the RTCP packets in this.rtcpPkts into a byte[]

   164 	 * by calling the encode() function on each of them individually.

   165 	 * 

   166 	 * The order of rtcpPkts is preserved, so a RR or SR packet must be first.

   167 	 * 

   168 	 * @return the trimmed byte[] representation of the packet, ready to go into a UDP packet.

   169 	 */

   170 	protected byte[] encode() {

   171 		if(RTPSession.rtpDebugLevel > 9) {

   172 			System.out.println(" <- CompRtcpPkt.encode()");

   173 		}

   174 		

   175 		ListIterator<RtcpPkt>  iter = rtcpPkts.listIterator();

   176 

   177 		byte[] rawPkt = new byte[1500];

   178 		int index = 0;

   179 		

   180 		while(iter.hasNext()) {

   181 			RtcpPkt aPkt = (RtcpPkt) iter.next();

   182 			

   183 			if(aPkt.packetType == 200) {

   184 				RtcpPktSR pkt = (RtcpPktSR) aPkt;

   185 				pkt.encode();

   186 				System.arraycopy(pkt.rawPkt, 0, rawPkt, index, pkt.rawPkt.length);

   187 				index += pkt.rawPkt.length;

   188 			} else if(aPkt.packetType == 201 ) {

   189 				RtcpPktRR pkt = (RtcpPktRR) aPkt;

   190 				pkt.encode();

   191 				System.arraycopy(pkt.rawPkt, 0, rawPkt, index, pkt.rawPkt.length);

   192 				index += pkt.rawPkt.length;

   193 			} else if(aPkt.packetType == 202) {

   194 				RtcpPktSDES pkt = (RtcpPktSDES) aPkt;

   195 				pkt.encode();

   196 				//System.out.println(" ENCODE SIZE: " + pkt.rawPkt.length);

   197 				System.arraycopy(pkt.rawPkt, 0, rawPkt, index, pkt.rawPkt.length);

   198 				index += pkt.rawPkt.length;

   199 			} else if(aPkt.packetType == 203) {

   200 				RtcpPktBYE pkt = (RtcpPktBYE) aPkt;

   201 				pkt.encode();

   202 				System.arraycopy(pkt.rawPkt, 0, rawPkt, index, pkt.rawPkt.length);

   203 				index += pkt.rawPkt.length;

   204 			} else if(aPkt.packetType == 204) {

   205 				RtcpPktAPP pkt = (RtcpPktAPP) aPkt;

   206 				pkt.encode();

   207 				System.arraycopy(pkt.rawPkt, 0, rawPkt, index, pkt.rawPkt.length);

   208 				index += pkt.rawPkt.length;

   209 			} else if(aPkt.packetType == 205) {

   210 				RtcpPktRTPFB pkt = (RtcpPktRTPFB) aPkt;

   211 				pkt.encode();

   212 				System.arraycopy(pkt.rawPkt, 0, rawPkt, index, pkt.rawPkt.length);

   213 				index += pkt.rawPkt.length;

   214 			} else if(aPkt.packetType == 206) {

   215 				RtcpPktPSFB pkt = (RtcpPktPSFB) aPkt;

   216 				pkt.encode();

   217 				System.arraycopy(pkt.rawPkt, 0, rawPkt, index, pkt.rawPkt.length);

   218 				index += pkt.rawPkt.length;

   219 			} else {

   220 				System.out.println("CompRtcpPkt aPkt.packetType:" + aPkt.packetType);

   221 			}

   222 			//System.out.println(" packetType:" + aPkt.packetType + " length:" + aPkt.rawPkt.length + " index:" + index);

   223 		} 

   224 		

   225 		byte[] output = new byte[index];

   226 		

   227 		System.arraycopy(rawPkt, 0, output, 0, index);

   228 

   229 		if(RTPSession.rtpDebugLevel > 9) {

   230 			System.out.println(" -> CompRtcpPkt.encode()");

   231 		}

   232 		return output;

   233 	}

   234 }