AVTransmit2.java和AVReceive2.java

2023-05-04 07:43•java•阅读 4022

http://www.cs.odu.edu/~cs778/jmfexamples/

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Transmitting Audio and Video over RTP

The AVTransmit2 class is similar to VideoTransmit except that it attempts to

transmit each of the tracks within the given input media. To do that, an RTP

session is created for each media track. For that purpose, the RTP Session

API instead of the DataSink API is used for flexibility.

The default (first available) RTP format is set for each track. For video, special

attention is taken to ensure that the input sizes are usable for RTP

transmission. Real-time scaling is applied when necessary.

Note that due to limitations of the JMF 2.1 implementation, audio and video are

not in tight synchronization.

The AVTransmit2 class takes three parameters in the constructor -

the source locator,
the destination IP address and
a base destination port number for all the media tracks.

The first media track will be transmitted from the base port number.

The next track will go to base port number plus 2 and so on.

The sample program can be used as a utility class as well as standalone. There

is a main method that takes three command line parameters. If all goes well,

the media will be sent out for 60 seconds and then the application will exit.

This 60 seconds limit is because there is no GUI that allows you to specify

when to stop the transmission.

How to run this sample

1. Run AVTransmit2 with the required 3 command line parameters

For example,

Use Multicast:

java AVTransmit2 file:clip01.mpg 224.122.122.122 8800

Use Unicast:

java AVTransmit2 file:clip01.mpg 128.82.4.7 8800

Where 128.82.4.7 is the receicver address.

If the sender address is 128.82.4.9 it will use port 8800

to send out data. In this case the receiver (e.g., JMStudio)

should specify the sender as: 128.82.4.9 8800.

Therefore to use unicast you should have two machines since

you can not use the same port for both sender and receiver.

2. Since the media tracks are transmitted in multiple sessions, you'll need to

use one Player per track on the receive side. Using JMStudio, you can

start multiple Players from the "File" menu using the "New Window"

item. Then use the "Open URL..." item to open one RTP session per

track. The URL to use is:

rtp://<sourceIP>:<port>/media

Where <sourceIP> is the IP address of the RTP session and the port

number is the same one that is used on the transmitting side.

Source Code

AVTransmit2.java

* @(#)AVTransmit2.java 1.4 01/03/13

* Sun grants you ("Licensee") a non-exclusive, royalty free, license to use,

* modify and redistribute this software in source and binary code form,

* provided that i) this copyright notice and license appear on all copies of

* the software; and ii) Licensee does not utilize the software in a manner

* which is disparaging to Sun.

* This software is provided "AS IS," without a warranty of any kind. ALL

* EXPRESS OR IMPLIED CONDITIONS, REPRESENTATIONS AND WARRANTIES, INCLUDING ANY

* IMPLIED WARRANTY OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE OR

* NON-INFRINGEMENT, ARE HEREBY EXCLUDED. SUN AND ITS LICENSORS SHALL NOT BE

* LIABLE FOR ANY DAMAGES SUFFERED BY LICENSEE AS A RESULT OF USING, MODIFYING

* OR DISTRIBUTING THE SOFTWARE OR ITS DERIVATIVES. IN NO EVENT WILL SUN OR ITS

* LICENSORS BE LIABLE FOR ANY LOST REVENUE, PROFIT OR DATA, OR FOR DIRECT,

* INDIRECT, SPECIAL, CONSEQUENTIAL, INCIDENTAL OR PUNITIVE DAMAGES, HOWEVER

* CAUSED AND REGARDLESS OF THE THEORY OF LIABILITY, ARISING OUT OF THE USE OF

* OR INABILITY TO USE SOFTWARE, EVEN IF SUN HAS BEEN ADVISED OF THE

* POSSIBILITY OF SUCH DAMAGES.

* This software is not designed or intended for use in on-line control of

* aircraft, air traffic, aircraft navigation or aircraft communications; or in

* the design, construction, operation or maintenance of any nuclear

* facility. Licensee represents and warrants that it will not use or

* redistribute the Software for such purposes.

import java.awt.*;

import java.io.*;

import java.net.InetAddress;

import javax.media.*;

import javax.media.protocol.*;

import javax.media.protocol.DataSource;

import javax.media.format.*;

import javax.media.control.TrackControl;

import javax.media.control.QualityControl;

import javax.media.rtp.*;

import javax.media.rtp.rtcp.*;

import com.sun.media.rtp.*;

public class AVTransmit2 {

// Input MediaLocator

// Can be a file or http or capture source

private MediaLocator locator;

private String ipAddress;

private int portBase;

private Processor processor = null;

private RTPManager rtpMgrs[];

private DataSource dataOutput = null;

public AVTransmit2(MediaLocator locator,

String ipAddress,

String pb,

Format format) {

this.locator = locator;

this.ipAddress = ipAddress;

Integer integer = Integer.valueOf(pb);

if (integer != null)

this.portBase = integer.intValue();

}

/**

* Starts the transmission. Returns null if transmission started ok.

* Otherwise it returns a string with the reason why the setup failed.

public synchronized String start() {

String result;

// Create a processor for the specified media locator

// and program it to output JPEG/RTP

result = createProcessor();

if (result != null)

return result;

// Create an RTP session to transmit the output of the

// processor to the specified IP address and port no.

result = createTransmitter();

if (result != null) {

processor.close();

processor = null;

return result;

}

// Start the transmission

processor.start();

return null;

}

/**

* Stops the transmission if already started

public void stop() {

synchronized (this) {

if (processor != null) {

processor.stop();

processor.close();

processor = null;

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

rtpMgrs[i].removeTargets( "Session ended.");

rtpMgrs[i].dispose();

}

private String createProcessor() {

if (locator == null)

return "Locator is null";

DataSource ds;

DataSource clone;

try {

ds = javax.media.Manager.createDataSource(locator);

} catch (Exception e) {

return "Couldn't create DataSource";

}

// Try to create a processor to handle the input media locator

try {

processor = javax.media.Manager.createProcessor(ds);

} catch (NoProcessorException npe) {

return "Couldn't create processor";

} catch (IOException ioe) {

return "IOException creating processor";

}

// Wait for it to configure

boolean result = waitForState(processor, Processor.Configured);

if (result == false)

return "Couldn't configure processor";

// Get the tracks from the processor

TrackControl [] tracks = processor.getTrackControls();

// Do we have atleast one track?

if (tracks == null || tracks.length < 1)

return "Couldn't find tracks in processor";

// Set the output content descriptor to RAW_RTP

// This will limit the supported formats reported from

// Track.getSupportedFormats to only valid RTP formats.

ContentDescriptor cd = new ContentDescriptor(ContentDescriptor.RAW_RTP);

processor.setContentDescriptor(cd);

Format supported[];

Format chosen;

boolean atLeastOneTrack = false;

// Program the tracks.

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

Format format = tracks[i].getFormat();

if (tracks[i].isEnabled()) {

supported = tracks[i].getSupportedFormats();

// We've set the output content to the RAW_RTP.

// So all the supported formats should work with RTP.

// We'll just pick the first one.

if (supported.length > 0) {

if (supported[0] instanceof VideoFormat) {

// For video formats, we should double check the

// sizes since not all formats work in all sizes.

chosen = checkForVideoSizes(tracks[i].getFormat(),

supported[0]);

} else

chosen = supported[0];

tracks[i].setFormat(chosen);

System.err.println("Track " + i + " is set to transmit as:");

System.err.println(" " + chosen);

atLeastOneTrack = true;

} else

tracks[i].setEnabled(false);

} else

tracks[i].setEnabled(false);

}

if (!atLeastOneTrack)

return "Couldn't set any of the tracks to a valid RTP format";

// Realize the processor. This will internally create a flow

// graph and attempt to create an output datasource for JPEG/RTP

// audio frames.

result = waitForState(processor, Controller.Realized);

if (result == false)

return "Couldn't realize processor";

// Set the JPEG quality to .5.

setJPEGQuality(processor, 0.5f);

// Get the output data source of the processor

dataOutput = processor.getDataOutput();

return null;

}

/**

* Use the RTPManager API to create sessions for each media

* track of the processor.

private String createTransmitter() {

// Cheated. Should have checked the type.

PushBufferDataSource pbds = (PushBufferDataSource)dataOutput;

PushBufferStream pbss[] = pbds.getStreams();

rtpMgrs = new RTPManager[pbss.length];

SessionAddress localAddr, destAddr;

InetAddress ipAddr;

SendStream sendStream;

int port;

SourceDescription srcDesList[];

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

try {

rtpMgrs[i] = RTPManager.newInstance();

// The local session address will be created on the

// same port as the the target port. This is necessary

// if you use AVTransmit2 in conjunction with JMStudio.

// JMStudio assumes - in a unicast session - that the

// transmitter transmits from the same port it is receiving

// on and sends RTCP Receiver Reports back to this port of

// the transmitting host.

port = portBase + 2*i;

ipAddr = InetAddress.getByName(ipAddress);

localAddr = new SessionAddress( InetAddress.getLocalHost(),

port);

destAddr = new SessionAddress( ipAddr, port);

rtpMgrs[i].initialize( localAddr);

rtpMgrs[i].addTarget( destAddr);

System.err.println( "Created RTP session: " + ipAddress + " " + port);

sendStream = rtpMgrs[i].createSendStream(dataOutput, i);

sendStream.start();

} catch (Exception e) {

return e.getMessage();

}

return null;

}

/**

* For JPEG and H263, we know that they only work for particular

* sizes. So we'll perform extra checking here to make sure they

* are of the right sizes.

Format checkForVideoSizes(Format original, Format supported) {

int width, height;

Dimension size = ((VideoFormat)original).getSize();

Format jpegFmt = new Format(VideoFormat.JPEG_RTP);

Format h263Fmt = new Format(VideoFormat.H263_RTP);

if (supported.matches(jpegFmt)) {

// For JPEG, make sure width and height are divisible by 8.

width = (size.width % 8 == 0 ? size.width :

(int)(size.width / 8) * 8);

height = (size.height % 8 == 0 ? size.height :

(int)(size.height / 8) * 8);

} else if (supported.matches(h263Fmt)) {

// For H.263, we only support some specific sizes.

if (size.width < 128) {

width = 128;

height = 96;

} else if (size.width < 176) {

width = 176;

height = 144;

} else {

width = 352;

height = 288;

}

} else {

// We don't know this particular format. We'll just

// leave it alone then.

return supported;

}

return (new VideoFormat(null,

new Dimension(width, height),

Format.NOT_SPECIFIED,

null,

Format.NOT_SPECIFIED)).intersects(supported);

}

/**

* Setting the encoding quality to the specified value on the JPEG encoder.

* 0.5 is a good default.

void setJPEGQuality(Player p, float val) {

Control cs[] = p.getControls();

QualityControl qc = null;

VideoFormat jpegFmt = new VideoFormat(VideoFormat.JPEG);

// Loop through the controls to find the Quality control for

// the JPEG encoder.

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

if (cs[i] instanceof QualityControl &&

cs[i] instanceof Owned) {

Object owner = ((Owned)cs[i]).getOwner();

// Check to see if the owner is a Codec.

// Then check for the output format.

if (owner instanceof Codec) {

Format fmts[] = ((Codec)owner).getSupportedOutputFormats(null);

for (int j = 0; j < fmts.length; j++) {

if (fmts[j].matches(jpegFmt)) {

qc = (QualityControl)cs[i];

qc.setQuality(val);

System.err.println("- Setting quality to " +

val + " on " + qc);

break;

}

if (qc != null)

break;

}

/****************************************************************

* Convenience methods to handle processor's state changes.

****************************************************************/

private Integer stateLock = new Integer(0);

private boolean failed = false;

Integer getStateLock() {

return stateLock;

}

void setFailed() {

failed = true;

}

private synchronized boolean waitForState(Processor p, int state) {

p.addControllerListener(new StateListener());

failed = false;

// Call the required method on the processor

if (state == Processor.Configured) {

p.configure();

} else if (state == Processor.Realized) {

p.realize();

}

// Wait until we get an event that confirms the

// success of the method, or a failure event.

// See StateListener inner class

while (p.getState() < state && !failed) {

synchronized (getStateLock()) {

try {

getStateLock().wait();

} catch (InterruptedException ie) {

return false;

}

if (failed)

return false;

else

return true;

}

/****************************************************************

* Inner Classes

****************************************************************/

class StateListener implements ControllerListener {

public void controllerUpdate(ControllerEvent ce) {

// If there was an error during configure or

// realize, the processor will be closed

if (ce instanceof ControllerClosedEvent)

setFailed();

// All controller events, send a notification

// to the waiting thread in waitForState method.

if (ce instanceof ControllerEvent) {

synchronized (getStateLock()) {

getStateLock().notifyAll();

}

/****************************************************************

* Sample Usage for AVTransmit2 class

****************************************************************/

public static void main(String [] args) {

// We need three parameters to do the transmission

// For example,

// java AVTransmit2 file:/C:/media/test.mov 129.130.131.132 42050

if (args.length < 3) {

prUsage();

}

Format fmt = null;

int i = 0;

// Create a audio transmit object with the specified params.

AVTransmit2 at = new AVTransmit2(new MediaLocator(args[i]),

args[i+1], args[i+2], fmt);

// Start the transmission

String result = at.start();

// result will be non-null if there was an error. The return

// value is a String describing the possible error. Print it.

if (result != null) {

System.err.println("Error : " + result);

System.exit(0);

}

System.err.println("Start transmission for 60 seconds...");

// Transmit for 60 seconds and then close the processor

// This is a safeguard when using a capture data source

// so that the capture device will be properly released

// before quitting.

// The right thing to do would be to have a GUI with a

// "Stop" button that would call stop on AVTransmit2

try {

Thread.currentThread().sleep(60000);

} catch (InterruptedException ie) {

}

// Stop the transmission

at.stop();

System.err.println("...transmission ended.");

System.exit(0);

}

static void prUsage() {

System.err.println("Usage: AVTransmit2 <sourceURL> <destIP> <destPortBase>");

System.err.println(" <sourceURL>: input URL or file name");

System.err.println(" <destIP>: multicast, broadcast or unicast IP address for the transmission");

System.err.println(" <destPortBase>: network port numbers for the transmission.");

System.err.println(" The first track will use the destPortBase.");

System.err.println(" The next track will use destPortBase + 2 and so on.\n");

System.exit(0);

}

Receiving Audio and Video using RTP

AVReceive2 uses the RTPManager API to receive RTP transmissions.

AVReceive2 performs the following tasks:

Open one RTP session per session address given.
Listen for the NewReceiveStreamEvent from the ReceiveStreamListener.
Create a JMF Player for each stream received for playback.

This sample program can be used in conjunction with JMStudio,

the AVTransmit sample or any other RTP compliant transmitter.

The IP address should be the address of the computer which transmits the data;

or the multicast address if multicast is being used for the transmission.

The ports should be the same as what's being used by the transmitter.

How to run this sample

Run AVReceive2 and specify the RTP session addresses to receive from.

For example,

> java AVReceive2 224.122.122.122/8800 224.122.122.122/8802

to simultaneously receive 2 different RTP sessions.

Source Code

AVReceive2.java

* @(#)AVReceive2.java 1.3 01/03/13