MediaDeviceSession.java

/*
 * Jitsi, the OpenSource Java VoIP and Instant Messaging client.
 *
 * Distributable under LGPL license.
 * See terms of license at gnu.org.
 */
package org.jitsi.impl.neomedia.device;

import java.awt.Dimension; // disambiguation
import java.io.*;
import java.util.*;

import javax.media.*;
import javax.media.control.*;
import javax.media.format.*;
import javax.media.protocol.*;
import javax.media.rtp.*;

import org.jitsi.impl.neomedia.*;
import org.jitsi.impl.neomedia.codec.*;
import org.jitsi.impl.neomedia.format.*;
import org.jitsi.impl.neomedia.protocol.*;
import org.jitsi.service.neomedia.*;
import org.jitsi.service.neomedia.device.*;
import org.jitsi.service.neomedia.format.*;
import org.jitsi.util.*;
import org.jitsi.util.event.*;

/**
 * Represents the use of a specific <tt>MediaDevice</tt> by a
 * <tt>MediaStream</tt>.
 *
 * @author Lyubomir Marinov
 * @author Damian Minkov
 * @author Emil Ivov
 */
public class MediaDeviceSession
    extends PropertyChangeNotifier
{
    /**
     * The <tt>Logger</tt> used by the <tt>MediaDeviceSession</tt> class and its
     * instances for logging output.
     */
    private static final Logger logger
        = Logger.getLogger(MediaDeviceSession.class);

    /**
     * The name of the <tt>MediaDeviceSession</tt> instance property the value
     * of which represents the output <tt>DataSource</tt> of the
     * <tt>MediaDeviceSession</tt> instance which provides the captured (RTP)
     * data to be sent by <tt>MediaStream</tt> to <tt>MediaStreamTarget</tt>.
     */
    public static final String OUTPUT_DATA_SOURCE = "OUTPUT_DATA_SOURCE";

    /**
     * The name of the property that corresponds to the array of SSRC
     * identifiers that we store in this <tt>MediaDeviceSession</tt> instance
     * and that we update upon adding and removing <tt>ReceiveStream</tt>
     */
    public static final String SSRC_LIST = "SSRC_LIST";

    /**
     * The JMF <tt>DataSource</tt> of {@link #device} through which this
     * instance accesses the media captured by it.
     */
    private DataSource captureDevice;

    /**
     * The indicator which determines whether {@link DataSource#connect()} has
     * been successfully executed on {@link #captureDevice}.
     */
    private boolean captureDeviceIsConnected;

    /**
     * The <tt>ContentDescriptor</tt> which specifies the content type in which
     * this <tt>MediaDeviceSession</tt> is to output the media captured by its
     * <tt>MediaDevice</tt>.
     */
    private ContentDescriptor contentDescriptor;

    /**
     * The <tt>MediaDevice</tt> used by this instance to capture and play back
     * media.
     */
    private final AbstractMediaDevice device;

    /**
     * The last JMF <tt>Format</tt> set to this instance by a call to its
     * {@link #setFormat(MediaFormat)} and to be set as the output format of
     * {@link #processor}.
     */
    private MediaFormatImpl<? extends Format> format;

    /**
     * The indicator which determines whether this <tt>MediaDeviceSession</tt>
     * is set to output "silence" instead of the actual media captured from
     * {@link #captureDevice}.
     */
    private boolean mute = false;

    /**
     * The list of playbacks of <tt>ReceiveStream</tt>s and/or
     * <tt>DataSource</tt>s performed by respective <tt>Player</tt>s on the
     * <tt>MediaDevice</tt> represented by this instance.
     */
    private final List<Playback> playbacks = new LinkedList<Playback>();

    /**
     * The <tt>ControllerListener</tt> which listens to the <tt>Player</tt>s of
     * {@link #playbacks} for <tt>ControllerEvent</tt>s.
     */
    private ControllerListener playerControllerListener;

    /**
     * The JMF <tt>Processor</tt> which transcodes {@link #captureDevice} into
     * the format of this instance.
     */
    private Processor processor;

    /**
     * The <tt>ControllerListener</tt> which listens to {@link #processor} for
     * <tt>ControllerEvent</tt>s.
     */
    private ControllerListener processorControllerListener;

    /**
     * The indicator which determines whether {@link #processor} has received
     * a <tt>ControllerClosedEvent</tt> at an unexpected time in its execution.
     * A value of <tt>false</tt> does not mean that <tt>processor</tt> exists
     * or that it is not closed, it just means that if <tt>processor</tt> failed
     * to be initialized or it received a <tt>ControllerClosedEvent</tt>, it was
     * at an expected time of its execution and that the fact in question was
     * reflected, for example, by setting <tt>processor</tt> to <tt>null</tt>.
     * If there is no <tt>processorIsPrematurelyClosed</tt> field and
     * <tt>processor</tt> is set to <tt>null</tt> or left existing after the
     * receipt of <tt>ControllerClosedEvent</tt>, it will either lead to not
     * firing a <tt>PropertyChangeEvent</tt> for <tt>OUTPUT_DATA_SOURCE</tt>
     * when it has actually changed and, consequently, cause the
     * <tt>SendStream</tt>s of <tt>MediaStreamImpl</tt> to not be recreated or
     * it will be impossible to detect that <tt>processor</tt> cannot have its
     * format set and will thus be left broken even for subsequent calls to
     * {@link #setFormat(MediaFormat)}.
     */
    private boolean processorIsPrematurelyClosed;

    /**
     * The list of SSRC identifiers representing the parties that we are
     * currently handling receive streams from.
     */
    private long[] ssrcList = null;

    /**
     * The <tt>MediaDirection</tt> in which this <tt>MediaDeviceSession</tt> has
     * been started.
     */
    private MediaDirection startedDirection = MediaDirection.INACTIVE;

    /**
     * If the player have to be disposed when we {@link #close()} this instance.
     */
    private boolean disposePlayerOnClose = true;

    /**
     * Whether output size has changed after latest processor config.
     * Used for video streams.
     */
    protected boolean outputsizeChanged = false;

    /**
     * Initializes a new <tt>MediaDeviceSession</tt> instance which is to
     * represent the use of a specific <tt>MediaDevice</tt> by a
     * <tt>MediaStream</tt>.
     *
     * @param device the <tt>MediaDevice</tt> the use of which by a
     * <tt>MediaStream</tt> is to be represented by the new instance
     */
    protected MediaDeviceSession(AbstractMediaDevice device)
    {
        checkDevice(device);

        this.device = device;
    }

    /**
     * Sets the indicator which determines whether this instance is to dispose
     * of its associated player upon closing.
     *
     * @param disposePlayerOnClose <tt>true</tt> to have this instance dispose
     * of its associated player upon closing; otherwise, <tt>false</tt>
     */
    public void setDisposePlayerOnClose(boolean disposePlayerOnClose)
    {
        this.disposePlayerOnClose = disposePlayerOnClose;
    }

    /**
     * Adds <tt>ssrc</tt> to the array of SSRC identifiers representing parties
     * that this <tt>MediaDeviceSession</tt> is currently receiving streams
     * from. We use this method mostly as a way of to caching SSRC identifiers
     * during a conference call so that the streams that are sending CSRC lists
     * could have them ready for use rather than have to construct them for
     * every RTP packet.
     *
     * @param ssrc the new SSRC identifier that we'd like to add to the array of
     * <tt>ssrc</tt> identifiers stored by this session.
     */
    protected void addSSRC(long ssrc)
    {
        //init if necessary
        if ( ssrcList == null)
        {
            setSsrcList(new long[]{ssrc});
            return;
        }

        //check whether we already have this ssrc
        for ( long i : ssrcList)
        {
            if ( i == ssrc)
                return;
        }

        //resize the array and add the new ssrc to the end.
        long[] newSsrcList = new long[ssrcList.length + 1];

        System.arraycopy(ssrcList, 0, newSsrcList, 0, ssrcList.length);
        newSsrcList[newSsrcList.length - 1] = ssrc;

        setSsrcList(newSsrcList);
    }

    /**
     * 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.
     *
     * @param sourceFormat the original format to check the size of
     * @return the modified <tt>VideoFormat</tt> set to the size we support
     */
    private static VideoFormat assertSize(VideoFormat sourceFormat)
    {
        int width, height;

        // JPEG
        if (sourceFormat.matches(new Format(VideoFormat.JPEG_RTP)))
        {
            Dimension size = sourceFormat.getSize();

            // For JPEG, make sure width and height are divisible by 8.
            width = (size.width % 8 == 0)
                    ? size.width
                    : ((size.width / 8) * 8);
            height = (size.height % 8 == 0)
                    ? size.height
                    : ((size.height / 8) * 8);
        }
        // H.263
        else if (sourceFormat.matches(new Format(VideoFormat.H263_RTP)))
        {
            // 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 sourceFormat;
        }

        VideoFormat result
            = new VideoFormat(
                    null,
                    new Dimension(width, height),
                    Format.NOT_SPECIFIED,
                    null,
                    Format.NOT_SPECIFIED);
        return (VideoFormat) result.intersects(sourceFormat);
    }

    /**
     * Asserts that a specific <tt>MediaDevice</tt> is acceptable to be set as
     * the <tt>MediaDevice</tt> of this instance. Allows extenders to override
     * and customize the check.
     *
     * @param device the <tt>MediaDevice</tt> to be checked for suitability to
     * become the <tt>MediaDevice</tt> of this instance
     */
    protected void checkDevice(AbstractMediaDevice device)
    {
    }

    /**
     * Releases the resources allocated by this instance in the course of its
     * execution and prepares it to be garbage collected.
     */
    public void close()
    {
        /**
         * Here the order of stopping the playback and capture is important
         * cause when we use echo cancellation the capturer access data from
         * the render part and so there a synchronized so we don't get
         * SEGFAULTS, but sometimes this synchronization can lead to slowly
         * stopping of the renderer. Thats why we first stop the capturer.
         */

        // capture
        disconnectCaptureDevice();
        closeProcessor();

        // playback
        if (disposePlayerOnClose)
            disposePlayer();

        processor = null;
//        player = null;
        captureDevice = null;
    }

    /**
     * Makes sure {@link #processor} is closed.
     */
    private void closeProcessor()
    {
        if (processor != null)
        {
            if (processorControllerListener != null)
                processor.removeControllerListener(processorControllerListener);

            processor.stop();
            if (logger.isTraceEnabled())
                logger
                    .trace(
                        "Stopped Processor with hashCode "
                            + processor.hashCode());

            if (processor.getState() == Processor.Realized)
            {
                DataSource dataOutput;

                try
                {
                    dataOutput = processor.getDataOutput();
                }
                catch (NotRealizedError nre)
                {
                    dataOutput = null;
                }
                if (dataOutput != null)
                    dataOutput.disconnect();
            }

            processor.deallocate();
            processor.close();
            processorIsPrematurelyClosed = false;

            /*
             * Once the processor uses the captureDevice, the captureDevice has
             * to be reconnected on its next use.
             */
            disconnectCaptureDevice();
        }
    }

    /**
     * Creates the <tt>DataSource</tt> that this instance is to read captured
     * media from.
     *
     * @return the <tt>DataSource</tt> that this instance is to read captured
     * media from
     */
    protected DataSource createCaptureDevice()
    {
        DataSource captureDevice = getDevice().createOutputDataSource();

        if (!(captureDevice instanceof MuteDataSource))
        {
            // Try to enable muting.
            if (captureDevice instanceof PushBufferDataSource)
            {
                captureDevice
                    = new RewritablePushBufferDataSource(
                            (PushBufferDataSource) captureDevice);
            }
            else if (captureDevice instanceof PullBufferDataSource)
            {
                captureDevice
                    = new RewritablePullBufferDataSource(
                            (PullBufferDataSource) captureDevice);
            }
        }
        if (captureDevice instanceof MuteDataSource)
            ((MuteDataSource) captureDevice).setMute(mute);

        return captureDevice;
    }

    /**
     * Creates a new <tt>Player</tt> for a specific <tt>DataSource</tt> so that
     * it is played back on the <tt>MediaDevice</tt> represented by this
     * instance.
     *
     * @param dataSource the <tt>DataSource</tt> to create a new <tt>Player</tt>
     * for
     * @return a new <tt>Player</tt> for the specified <tt>dataSource</tt>
     */
    protected Player createPlayer(DataSource dataSource)
    {
        Processor player = null;
        Throwable exception = null;

        // A Player is documented to be created on a connected DataSource.
        try
        {
            dataSource.connect();
        }
        catch (IOException ioex)
        {
            // TODO
            exception = ioex;
        }
        if (exception != null)
        {
            logger.error(
                    "Failed to connect to "
                        + MediaStreamImpl.toString(dataSource),
                    exception);
            return player;
        }

        try
        {
            player = Manager.createProcessor(dataSource);
        }
        catch (IOException ioe)
        {
            exception = ioe;
        }
        catch (NoPlayerException npe)
        {
            exception = npe;
        }
        if (exception != null)
        {
            logger.error(
                    "Failed to create Player for "
                        + MediaStreamImpl.toString(dataSource),
                    exception);
        }
        else
        {
            /*
             * We cannot wait for the Player to get configured (e.g. with
             * waitForState) because it will stay in the Configuring state until
             * it reads some media. In the case of a ReceiveStream not sending
             * media (e.g. abnormally stopped), it will leave us blocked.
             */
            if (playerControllerListener == null)
                playerControllerListener = new ControllerListener()
                {

                    /**
                     * Notifies this <tt>ControllerListener</tt> that the
                     * <tt>Controller</tt> which it is registered with has
                     * generated an event.
                     *
                     * @param event the <tt>ControllerEvent</tt> specifying the
                     * <tt>Controller</tt> which is the source of the event and
                     * the very type of the event
                     * @see ControllerListener#controllerUpdate(ControllerEvent)
                     */
                    public void controllerUpdate(ControllerEvent event)
                    {
                        playerControllerUpdate(event);
                    }
                };
            player.addControllerListener(playerControllerListener);

            player.configure();
            if (logger.isTraceEnabled())
                logger.trace(
                        "Created Player with hashCode "
                            + player.hashCode()
                            + " for "
                            + MediaStreamImpl.toString(dataSource));
        }

        if (player == null)
            dataSource.disconnect();

        return player;
    }

    /**
     * Initializes a new FMJ <tt>Processor</tt> which is to transcode
     * {@link #captureDevice} into the format of this instance.
     *
     * @return a new FMJ <tt>Processor</tt> which is to transcode
     * <tt>captureDevice</tt> into the format of this instance
     */
    protected Processor createProcessor()
    {
        DataSource captureDevice = getConnectedCaptureDevice();

        if (captureDevice != null)
        {
            Processor processor = null;
            Throwable exception = null;

            try
            {
                processor = Manager.createProcessor(captureDevice);
            }
            catch (IOException ioe)
            {
                // TODO
                exception = ioe;
            }
            catch (NoProcessorException npe)
            {
                // TODO
                exception = npe;
            }

            if (exception != null)
                logger
                    .error(
                        "Failed to create Processor for " + captureDevice,
                        exception);
            else
            {
                if (processorControllerListener == null)
                    processorControllerListener = new ControllerListener()
                    {

                        /**
                         * Notifies this <tt>ControllerListener</tt> that
                         * the <tt>Controller</tt> which it is registered
                         * with has generated an event.
                         *
                         * @param event the <tt>ControllerEvent</tt>
                         * specifying the <tt>Controller</tt> which is the
                         * source of the event and the very type of the
                         * event
                         * @see ControllerListener#controllerUpdate(
                         * ControllerEvent)
                         */
                        public void controllerUpdate(ControllerEvent event)
                        {
                            processorControllerUpdate(event);
                        }
                    };
                processor
                    .addControllerListener(processorControllerListener);

                if (waitForState(processor, Processor.Configured))
                {
                    this.processor = processor;
                    processorIsPrematurelyClosed = false;
                }
                else
                {
                    if (processorControllerListener != null)
                        processor
                            .removeControllerListener(
                                processorControllerListener);
                    processor = null;
                }
            }
        }

        return this.processor;
    }

    /**
     * Creates a <tt>ContentDescriptor</tt> to be set on a specific
     * <tt>Processor</tt> of captured media to be sent to the remote peer.
     * Allows extenders to override. The default implementation returns
     * {@link ContentDescriptor#RAW_RTP}.
     *
     * @param processor the <tt>Processor</tt> of captured media to be sent to
     * the remote peer which is to have its <tt>contentDescriptor</tt> set to
     * the returned <tt>ContentDescriptor</tt>
     * @return a <tt>ContentDescriptor</tt> to be set on the specified
     * <tt>processor</tt> of captured media to be sent to the remote peer
     */
    protected ContentDescriptor createProcessorContentDescriptor(
            Processor processor)
    {
        return
            (contentDescriptor == null)
                ? new ContentDescriptor(ContentDescriptor.RAW_RTP)
                : contentDescriptor;
    }

    /**
     * Makes sure {@link #captureDevice} is disconnected.
     */
    private void disconnectCaptureDevice()
    {
        if (captureDevice != null)
        {
            /*
             * As reported by Carlos Alexandre, stopping before disconnecting
             * resolves a slow disconnect on Linux.
             */
            try
            {
                captureDevice.stop();
            }
            catch (IOException ioe)
            {
                /*
                 * We cannot do much about the exception because we're not
                 * really interested in the stopping but rather in calling
                 * DataSource#disconnect() anyway.
                 */
                logger
                    .error(
                        "Failed to properly stop captureDevice "
                            + captureDevice,
                        ioe);
            }

            captureDevice.disconnect();
            captureDeviceIsConnected = false;
        }
    }

    /**
     * Releases the resources allocated by the <tt>Player</tt>s of
     * {@link #playbacks} in the course of their execution and prepares them to
     * be garbage collected.
     */
    private void disposePlayer()
    {
        synchronized (playbacks)
        {
            for (Playback playback : playbacks)
                if (playback.player != null)
                {
                    disposePlayer(playback.player);
                    playback.player = null;
                }
        }
    }

    /**
     * Releases the resources allocated by a specific <tt>Player</tt> in the
     * course of its execution and prepares it to be garbage collected.
     *
     * @param player the <tt>Player</tt> to dispose of
     */
    protected void disposePlayer(Player player)
    {
        synchronized (playbacks)
        {
            if (playerControllerListener != null)
                player.removeControllerListener(playerControllerListener);
            player.stop();
            player.deallocate();
            player.close();
        }
    }

    /**
     * Finds the first <tt>Format</tt> instance in a specific list of
     * <tt>Format</tt>s which matches a specific <tt>Format</tt>. The
     * implementation considers a pair of <tt>Format</tt>s matching if they have
     * the same encoding.
     *
     * @param formats the array of <tt>Format</tt>s to be searched for a match
     * to the specified <tt>format</tt>
     * @param format the <tt>Format</tt> to search for a match in the specified
     * <tt>formats</tt>
     * @return the first element of <tt>formats</tt> which matches
     * <tt>format</tt> i.e. is of the same encoding
     */
    private static Format findFirstMatchingFormat(
            Format[] formats,
            Format format)
    {
        double formatSampleRate
            = (format instanceof AudioFormat)
                ? ((AudioFormat) format).getSampleRate()
                : Format.NOT_SPECIFIED;
        ParameterizedVideoFormat parameterizedVideoFormat
            = (format instanceof ParameterizedVideoFormat)
                ? (ParameterizedVideoFormat) format
                : null;

        for (Format match : formats)
        {
            if (match.isSameEncoding(format))
            {
                /*
                 * The encoding alone is, of course, not enough. For example,
                 * AudioFormats may have different sample rates (i.e. clock
                 * rates as we call them in MediaFormat).
                 */
                if (match instanceof AudioFormat)
                {
                    if (formatSampleRate != Format.NOT_SPECIFIED)
                    {
                        double matchSampleRate
                            = ((AudioFormat) match).getSampleRate();

                        if ((matchSampleRate != Format.NOT_SPECIFIED)
                                && (matchSampleRate != formatSampleRate))
                            continue;
                    }
                }
                else if (match instanceof ParameterizedVideoFormat)
                {
                    if (!((ParameterizedVideoFormat) match)
                            .formatParametersMatch(format))
                        continue;
                }
                else if (parameterizedVideoFormat != null)
                {
                    if (!parameterizedVideoFormat.formatParametersMatch(match))
                        continue;
                }
                return match;
            }
        }
        return null;
    }

    /**
     * Gets the <tt>DataSource</tt> that this instance uses to read captured
     * media from. If it does not exist yet, it is created.
     *
     * @return the <tt>DataSource</tt> that this instance uses to read captured
     * media from
     */
    public synchronized DataSource getCaptureDevice()
    {
        if (captureDevice == null)
            captureDevice = createCaptureDevice();
        return captureDevice;
    }

    /**
     * Gets {@link #captureDevice} in a connected state. If this instance is not
     * connected to <tt>captureDevice</tt> yet, first tries to connect to it.
     * Returns <tt>null</tt> if this instance fails to create
     * <tt>captureDevice</tt> or to connect to it.
     *
     * @return {@link #captureDevice} in a connected state; <tt>null</tt> if
     * this instance fails to create <tt>captureDevice</tt> or to connect to it
     */
    protected DataSource getConnectedCaptureDevice()
    {
        DataSource captureDevice = getCaptureDevice();

        if ((captureDevice != null) && !captureDeviceIsConnected)
        {
            /*
             * Give this instance a chance to set up an optimized media codec
             * chain by setting the output Format on the input CaptureDevice.
             */
            try
            {
                if (this.format != null)
                    setCaptureDeviceFormat(captureDevice, this.format);
            }
            catch (Throwable t)
            {
                logger.warn(
                        "Failed to setup an optimized media codec chain"
                            + " by setting the output Format"
                            + " on the input CaptureDevice",
                        t);
            }

            Throwable exception = null;

            try
            {
                getDevice().connect(captureDevice);
            }
            catch (IOException ioex)
            {
                exception = ioex;
            }

            if (exception == null)
                captureDeviceIsConnected = true;
            else
            {
                logger.error(
                        "Failed to connect to "
                            + MediaStreamImpl.toString(captureDevice),
                        exception);
                captureDevice = null;
            }
        }
        return captureDevice;
    }

    /**
     * Gets the <tt>MediaDevice</tt> associated with this instance and the work
     * of a <tt>MediaStream</tt> with which is represented by it.
     *
     * @return the <tt>MediaDevice</tt> associated with this instance and the
     * work of a <tt>MediaStream</tt> with which is represented by it
     */
    public AbstractMediaDevice getDevice()
    {
        return device;
    }

    /**
     * Gets the JMF <tt>Format</tt> in which this instance captures media.
     *
     * @return the JMF <tt>Format</tt> in which this instance captures media.
     */
    public Format getProcessorFormat()
    {
        Processor processor = getProcessor();

        if ((processor != null)
                && (this.processor == processor)
                && !processorIsPrematurelyClosed)
        {
            MediaType mediaType = getMediaType();

            for (TrackControl trackControl : processor.getTrackControls())
            {
                if (!trackControl.isEnabled())
                    continue;

                Format jmfFormat = trackControl.getFormat();
                MediaType type
                    = (jmfFormat instanceof VideoFormat)
                        ? MediaType.VIDEO
                        : MediaType.AUDIO;

                if (mediaType.equals(type))
                    return jmfFormat;
            }
        }
        return null;
    }

    /**
     * Gets the <tt>MediaFormat</tt> in which this instance captures media from
     * its associated <tt>MediaDevice</tt>.
     *
     * @return the <tt>MediaFormat</tt> in which this instance captures media
     * from its associated <tt>MediaDevice</tt>
     */
    public MediaFormatImpl<? extends Format> getFormat()
    {
        /*
         * If the Format of the processor is different than the format of this
         * MediaDeviceSession, we'll likely run into unexpected issues so debug
         * whether there are such cases.
         */
        if (logger.isDebugEnabled() && (processor != null))
        {
            Format processorFormat = getProcessorFormat();
            Format format
                = (this.format == null) ? null : this.format.getFormat();
            boolean processorFormatMatchesFormat
                = (processorFormat == null)
                    ? (format == null)
                    : processorFormat.matches(format);

            if (!processorFormatMatchesFormat)
            {
                logger.debug(
                        "processorFormat != format; processorFormat= `"
                            + processorFormat
                            + "`; format= `"
                            + format
                            + "`");
            }
        }

        return format;
    }

    /**
     * Gets the <tt>MediaType</tt> of the media captured and played back by this
     * instance. It is the same as the <tt>MediaType</tt> of its associated
     * <tt>MediaDevice</tt>.
     *
     * @return the <tt>MediaType</tt> of the media captured and played back by
     * this instance as reported by {@link MediaDevice#getMediaType()} of its
     * associated <tt>MediaDevice</tt>
     */
    private MediaType getMediaType()
    {
        return getDevice().getMediaType();
    }

    /**
     * Gets the output <tt>DataSource</tt> of this instance which provides the
     * captured (RTP) data to be sent by <tt>MediaStream</tt> to
     * <tt>MediaStreamTarget</tt>.
     *
     * @return the output <tt>DataSource</tt> of this instance which provides
     * the captured (RTP) data to be sent by <tt>MediaStream</tt> to
     * <tt>MediaStreamTarget</tt>
     */
    public DataSource getOutputDataSource()
    {
        Processor processor = getProcessor();
        DataSource outputDataSource;

        if ((processor == null)
                || ((processor.getState() < Processor.Realized)
                        && !waitForState(processor, Processor.Realized)))
            outputDataSource = null;
        else
        {
            outputDataSource = processor.getDataOutput();
            if (logger.isTraceEnabled() && (outputDataSource != null))
                logger
                    .trace(
                        "Processor with hashCode "
                            + processor.hashCode()
                            + " provided "
                            + MediaStreamImpl.toString(outputDataSource));

            /*
             * Whoever wants the outputDataSource, they expect it to be started
             * in accord with the previously-set direction.
             */
            startProcessorInAccordWithDirection(processor);
        }
        return outputDataSource;
    }

    /**
     * Gets the information related to the playback of a specific
     * <tt>DataSource</tt> on the <tt>MediaDevice</tt> represented by this
     * <tt>MediaDeviceSession</tt>.
     *
     * @param dataSource the <tt>DataSource</tt> to get the information related
     * to the playback of
     * @return the information related to the playback of the specified
     * <tt>DataSource</tt> on the <tt>MediaDevice</tt> represented by this
     * <tt>MediaDeviceSession</tt>
     */
    private Playback getPlayback(DataSource dataSource)
    {
        synchronized (playbacks)
        {
            for (Playback playback : playbacks)
                if (playback.dataSource == dataSource)
                    return playback;
        }
        return null;
    }

    /**
     * Gets the information related to the playback of a specific
     * <tt>ReceiveStream</tt> on the <tt>MediaDevice</tt> represented by this
     * <tt>MediaDeviceSession</tt>.
     *
     * @param receiveStream the <tt>ReceiveStream</tt> to get the information
     * related to the playback of
     * @return the information related to the playback of the specified
     * <tt>ReceiveStream</tt> on the <tt>MediaDevice</tt> represented by this
     * <tt>MediaDeviceSession</tt>
     */
    private Playback getPlayback(ReceiveStream receiveStream)
    {
        synchronized (playbacks)
        {
            for (Playback playback : playbacks)
                if (playback.receiveStream == receiveStream)
                    return playback;
        }
        return null;
    }

    /**
     * Gets the <tt>Player</tt>s rendering the <tt>ReceiveStream</tt>s of this
     * instance on its associated <tt>MediaDevice</tt>.
     *
     * @return the <tt>Player</tt>s rendering the <tt>ReceiveStream</tt>s of
     * this instance on its associated <tt>MediaDevice</tt>
     */