/**

 * Java RTP Library (jlibrtp)

 * Copyright (C) 2006 Arne Kepp

 * 

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

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

 * License as published by the Free Software Foundation; either

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

 *

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

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

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

 * Lesser General Public License for more details.

 * 

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

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

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

 */

package jlibrtp;

import java.net.DatagramSocket;

import java.net.MulticastSocket;

import java.net.DatagramPacket;

import java.net.InetAddress;

import java.net.InetSocketAddress;

import java.util.Iterator;

import java.util.concurrent.locks.*;

import java.util.Random;

import java.util.Enumeration;

/**

 * The RTPSession object is the core of jlibrtp. 

 * 

 * One should be instantiated for every communication channel, i.e. if you send voice and video, you should create one for each.

 * 

 * The instance holds a participant database, as well as other information about the session. When the application registers with the session, the necessary threads for receiving and processing RTP packets are spawned.

 * 

 * RTP Packets are sent synchronously, all other operations are asynchronous.

 * 

 * @author Arne Kepp

 */

public class RTPSession {

	 /**

	  * The debug level is final to avoid compilation of if-statements.</br>

	  * 0 provides no debugging information, 20 provides everything </br>

	  * Debug output is written to System.out</br>

	  * Debug level for RTP related things.

	  */

	 final static public int rtpDebugLevel = 0;

	 /**

	  * The debug level is final to avoid compilation of if-statements.</br>

	  * 0 provides no debugging information, 20 provides everything </br>

	  * Debug output is written to System.out</br>

	  * Debug level for RTCP related things.

	  */

	 final static public int rtcpDebugLevel = 0;

	 /** RTP unicast socket */

	 protected DatagramSocket rtpSock = null;

	 /** RTP multicast socket */

	 protected MulticastSocket rtpMCSock = null;

	 /** RTP multicast group */

	 protected InetAddress mcGroup = null;

	 // Internal state

	 /** Whether this session is a multicast session or not */

	 protected boolean mcSession = false;

	 /** Current payload type, can be changed by application */

	 protected int payloadType = 0;

	 /** SSRC of this session */

	 protected long ssrc;

	 /** The last timestamp when we sent something */

	 protected long lastTimestamp = 0;

	 /** Current sequence number */

	 protected int seqNum = 0;

	 /** Number of packets sent by this session */

	 protected int sentPktCount = 0;

	 /** Number of octets sent by this session */

	 protected int sentOctetCount = 0;

	 /** The random seed */

	 protected Random random = null;

	 /** Session bandwidth in BYTES per second */

	 protected int bandwidth = 8000;

	 /** By default we do not return packets from strangers in unicast mode */

	 protected boolean naiveReception = false;

	 /** Should the library attempt frame reconstruction? */

	 protected boolean frameReconstruction = true;

	 /** Maximum number of packets used for reordering */

	 protected int pktBufBehavior = 3;

	 /** Participant database */

	 protected ParticipantDatabase partDb = new ParticipantDatabase(this); 

	 /** Handle to application interface for RTP */

	 protected RTPAppIntf appIntf = null;

	 /** Handle to application interface for RTCP (optional) */

	 protected RTCPAppIntf rtcpAppIntf = null;

	 /** Handle to application interface for AVPF, RFC 4585 (optional) */

	 protected RTCPAVPFIntf rtcpAVPFIntf = null;

	 /** Handle to application interface for debugging */

	 protected DebugAppIntf debugAppIntf = null;

	 /** The RTCP session associated with this RTP Session */

	 protected RTCPSession rtcpSession = null;

	 /** The thread for receiving RTP packets */

	 protected RTPReceiverThread recvThrd = null;

	 /** The thread for invoking callbacks for RTP packets */

	 protected AppCallerThread appCallerThrd = null;

	 /** Lock to protect the packet buffers */

	 final protected Lock pktBufLock = new ReentrantLock();

	 /** Condition variable, to tell the  */

	 final protected Condition pktBufDataReady = pktBufLock.newCondition();

	 /** Enough is enough, set to true when you want to quit. */

	 protected boolean endSession = false;

	 /** Only one registered application, please */

	 protected boolean registered = false;

	 /** We're busy resolving a SSRC conflict, please try again later */

	 protected boolean conflict = false;

	 /** Number of conflicts observed, exessive number suggests loop in network */

	 protected int conflictCount = 0;

	 /** SDES CNAME */

	 protected String cname = null;

	 /** SDES The participant's real name */

	 public String name = null;

	 /** SDES The participant's email */

	 public String email = null;

	 /** SDES The participant's phone number */

	 public String phone = null;

	 /** SDES The participant's location*/

	 public String loc = null;

	 /** SDES The tool the participants is using */

	 public String tool = null;

	 /** SDES A note */

	 public String note = null;

	 /** SDES A priv string, loosely defined */

	 public String priv = null;

	 // RFC 4585 stuff. This should live on RTCPSession, but we need to have this

	 // infromation ready by the time the RTCP Session starts

	 // 0 = RFC 3550 , -1 = ACK , 1 = Immediate feedback, 2 = Early RTCP,  

	 protected int rtcpMode = 0;

	 protected int fbEarlyThreshold = -1;		// group size, immediate -> early transition point

	 protected int fbRegularThreshold = -1;	// group size, early -> regular transition point

	 protected int minInterval = 5000;		// minimum interval

	 protected int fbMaxDelay = 1000;			// how long the information is useful

	 // RTCP bandwidth

	 protected int rtcpBandwidth = -1;

	 /**

	  * Returns an instance of a <b>unicast</b> RTP session. 

	  * Following this you should adjust any settings and then register your application.

	  * 

	  * The sockets should have external ip addresses, else your CNAME automatically

	  * generated CNAMe will be bad.

	  * 

	  * @param	rtpSocket UDP socket to receive RTP communication on

	  * @param	rtcpSocket UDP socket to receive RTCP communication on, null if none.

	  */

	 public RTPSession(DatagramSocket rtpSocket, DatagramSocket rtcpSocket) {

		 mcSession = false;

		 rtpSock = rtpSocket;

		 this.generateCNAME();

		 this.generateSsrc();

		 this.rtcpSession = new RTCPSession(this,rtcpSocket);

		 // The sockets are not always imediately available?

		 try { Thread.sleep(1); } catch (InterruptedException e) { System.out.println("RTPSession sleep failed"); }

	 }

	 /**

	  * Returns an instance of a <b>multicast</b> RTP session. 

	  * Following this you should register your application.

	  * 

	  * The sockets should have external ip addresses, else your CNAME automatically

	  * generated CNAMe will be bad.

	  * 

	  * @param	rtpSock a multicast socket to receive RTP communication on

	  * @param	rtcpSock a multicast socket to receive RTP communication on

	  * @param	multicastGroup the multicast group that we want to communicate with.

	  */

	 public RTPSession(MulticastSocket rtpSock, MulticastSocket rtcpSock, InetAddress multicastGroup) throws Exception {

		 mcSession = true;

		 rtpMCSock =rtpSock;

		 mcGroup = multicastGroup;

		 rtpMCSock.joinGroup(mcGroup);

		 rtcpSock.joinGroup(mcGroup);

		 this.generateCNAME();

		 this.generateSsrc();

		 this.rtcpSession = new RTCPSession(this,rtcpSock,mcGroup);

		 // The sockets are not always imediately available?

		 try { Thread.sleep(1); } catch (InterruptedException e) { System.out.println("RTPSession sleep failed"); }

	 }

	 /**

	  * Registers an application (RTPAppIntf) with the RTP session.

	  * The session will call receiveData() on the supplied instance whenever data has been received.

	  * 

	  * Following this you should set the payload type and add participants to the session.

	  * 

	  * @param	rtpApp an object that implements the RTPAppIntf-interface

	  * @param	rtcpApp an object that implements the RTCPAppIntf-interface (optional)

	  * @return	-1 if this RTPSession-instance already has an application registered.

	  */

	 public int RTPSessionRegister(RTPAppIntf rtpApp, RTCPAppIntf rtcpApp, DebugAppIntf debugApp) {

		if(registered) {

			System.out.println("RTPSessionRegister(): Can\'t register another application!");

			return -1;

		} else {

			registered = true;

			generateSeqNum();

			if(RTPSession.rtpDebugLevel > 0) {

				System.out.println("-> RTPSessionRegister");

			}  

			this.appIntf = rtpApp;

			this.rtcpAppIntf = rtcpApp;

			this.debugAppIntf = debugApp;

			recvThrd = new RTPReceiverThread(this);

			appCallerThrd = new AppCallerThread(this, rtpApp);

			recvThrd.start();

		 	appCallerThrd.start();

		 	rtcpSession.start();

		 	return 0;

		}

	}

	 /**

	  * Send data to all participants registered as receivers, using the current timeStamp,

	  * dynamic sequence number and the current payload type specified for the session.

	  * 

	  * @param buf A buffer of bytes, less than 1496 bytes

	  * @return	null if there was a problem, {RTP Timestamp, Sequence number} otherwise

	  */

	 public long[] sendData(byte[] buf) {

		 byte[][] tmp = {buf}; 

		 long[][] ret = this.sendData(tmp, null, null, -1, null);

		 if(ret != null)

			 return ret[0];

		 return null;

	 }

	 /**

	  * Send data to all participants registered as receivers, using the specified timeStamp,

	  * sequence number and the current payload type specified for the session.

	  * 

	  * @param buf A buffer of bytes, less than 1496 bytes

	  * @param rtpTimestamp the RTP timestamp to be used in the packet

	  * @param seqNum the sequence number to be used in the packet

	  * @return null if there was a problem, {RTP Timestamp, Sequence number} otherwise

	  */

	 public long[] sendData(byte[] buf, long rtpTimestamp, long seqNum) {

		 byte[][] tmp = {buf};

		 long[][] ret = this.sendData(tmp, null, null, -1, null);

		 if(ret != null)

			 return ret[0];

		 return null;

	 }

	 /**

	  * Send data to all participants registered as receivers, using the current timeStamp and

	  * payload type. The RTP timestamp will be the same for all the packets.

	  * 

	  * @param buffers A buffer of bytes, should not bed padded and less than 1500 bytes on most networks.

	  * @param csrcArray an array with the SSRCs of contributing sources

	  * @param markers An array indicating what packets should be marked. Rarely anything but the first one

	  * @param rtpTimestamp The RTP timestamp to be applied to all packets

	  * @param seqNumbers An array with the sequence number associated with each byte[]

	  * @return	null if there was a problem sending the packets, 2-dim array with {RTP Timestamp, Sequence number}

	  */

	 public long[][] sendData(byte[][] buffers, long[] csrcArray, boolean[] markers, long rtpTimestamp, long[] seqNumbers) {

		 if(RTPSession.rtpDebugLevel > 5) {

			 System.out.println("-> RTPSession.sendData(byte[])");

		 }

		 // Same RTP timestamp for all

		 if(rtpTimestamp < 0)

			 rtpTimestamp = System.currentTimeMillis();

		 // Return values

		 long[][] ret = new long[buffers.length][2];

		 for(int i=0; i<buffers.length; i++) {

			 byte[] buf = buffers[i];

			 boolean marker = false;

			 if(markers != null)

				  marker = markers[i];

			 if(buf.length > 1500) {

				 System.out.println("RTPSession.sendData() called with buffer exceeding 1500 bytes ("+buf.length+")");

			 }

			 // Get the return values

			 ret[i][0] = rtpTimestamp;

			 if(seqNumbers == null) {

				 ret[i][1] = getNextSeqNum();

			 } else {

				 ret[i][1] = seqNumbers[i];

			 }

			 // Create a new RTP Packet

			 RtpPkt pkt = new RtpPkt(rtpTimestamp,this.ssrc,(int) ret[i][1],this.payloadType,buf);

			 if(csrcArray != null)

				 pkt.setCsrcs(csrcArray);

			 pkt.setMarked(marker);

			 // Creates a raw packet

			 byte[] pktBytes = pkt.encode();

			 //System.out.println(Integer.toString(StaticProcs.bytesToUIntInt(pktBytes, 2)));

			 // Pre-flight check, are resolving an SSRC conflict?

			 if(this.conflict) {

				 System.out.println("RTPSession.sendData() called while trying to resolve conflict.");

				 return null;

			 }

			 if(this.mcSession) {

				 DatagramPacket packet = null;

				 try {

					 packet = new DatagramPacket(pktBytes,pktBytes.length,this.mcGroup,this.rtpMCSock.getPort());

				 } catch (Exception e) {

					 System.out.println("RTPSession.sendData() packet creation failed.");

					 e.printStackTrace();

					 return null;

				 }

				 try {

					 rtpMCSock.send(packet);

					 //Debug

					 if(this.debugAppIntf != null) {

						 this.debugAppIntf.packetSent(1, (InetSocketAddress) packet.getSocketAddress(), 

								 new String("Sent multicast RTP packet of size " + packet.getLength() + 

										 " to " + packet.getSocketAddress().toString() + " via " 

										 + rtpMCSock.getLocalSocketAddress().toString()));

					 }

				 } catch (Exception e) {

					 System.out.println("RTPSession.sendData() multicast failed.");

					 e.printStackTrace();

					 return null;

				 }		

			 } else {

				 // Loop over recipients

				 Iterator<Participant> iter = partDb.getUnicastReceivers();

				 while(iter.hasNext()) {			

					 InetSocketAddress receiver = iter.next().rtpAddress;

					 DatagramPacket packet = null;

					 if(RTPSession.rtpDebugLevel > 15) {

						 System.out.println("   Sending to " + receiver.toString());

					 }

					 try {

						 packet = new DatagramPacket(pktBytes,pktBytes.length,receiver);

					 } catch (Exception e) {

						 System.out.println("RTPSession.sendData() packet creation failed.");

						 e.printStackTrace();

						 return null;

					 }

					 //Actually send the packet

					 try {

						 rtpSock.send(packet);

						 //Debug

						 if(this.debugAppIntf != null) {

							 this.debugAppIntf.packetSent(0, (InetSocketAddress) packet.getSocketAddress(), 

									 new String("Sent unicast RTP packet of size " + packet.getLength() + 

											 " to " + packet.getSocketAddress().toString() + " via " 

											 + rtpSock.getLocalSocketAddress().toString()));

						 }