/**
* The <tt>OneToOneCallPeerPanel</tt> is the panel containing data for a call peer in a given call.
* It contains information like call peer name, photo, call duration, etc.
*
* @author Yana Stamcheva
* @author Lyubomir Marinov
* @author Sebastien Vincent
* @author Adam Netocny
*/
public class OneToOneCallPeerPanel extends TransparentPanel
implements SwingCallPeerRenderer, PropertyChangeListener, Skinnable {
/**
* The <tt>Logger</tt> used by the <tt>OneToOneCallPeerPanel</tt> class and its instances for
* logging output.
*/
private static final Logger logger = Logger.getLogger(OneToOneCallPeerPanel.class);
/** Serial version UID. */
private static final long serialVersionUID = 0L;
/** The <tt>CallPeer</tt>, which is rendered in this panel. */
private final CallPeer callPeer;
/** The <tt>Call</tt>, which is rendered in this panel. */
private final Call call;
/**
* The <tt>CallPeerAdapter</tt> which implements common <tt>CallPeer</tt>-related listeners on
* behalf of this instance.
*/
private final CallPeerAdapter callPeerAdapter;
/** The renderer of the call. */
private final SwingCallRenderer callRenderer;
/** The component showing the status of the underlying call peer. */
private final JLabel callStatusLabel = new JLabel();
/** The center component. */
private final VideoContainer center;
/**
* The AWT <tt>Component</tt> which implements a button which allows closing/hiding the visual
* <tt>Component</tt> which depicts the video streaming from the local peer/user to the remote
* peer(s).
*/
private Component closeLocalVisualComponentButton;
/**
* A listener to desktop sharing granted/revoked events and to mouse and keyboard interaction with
* the remote video displaying the remote desktop.
*/
private final DesktopSharingMouseAndKeyboardListener desktopSharingMouseAndKeyboardListener;
/**
* The indicator which determines whether {@link #dispose()} has already been invoked on this
* instance. If <tt>true</tt>, this instance is considered non-functional and is to be left to the
* garbage collector.
*/
private boolean disposed = false;
/** The DTMF label. */
private final JLabel dtmfLabel = new JLabel();
/** The component responsible for displaying an error message. */
private JTextComponent errorMessageComponent;
/** The label showing whether the call is on or off hold. */
private final JLabel holdStatusLabel = new JLabel();
/** Sound local level label. */
private InputVolumeControlButton localLevel;
/**
* The <tt>Component</tt> which {@link #updateViewFromModelInEventDispatchThread()} last added to
* {@link #center} as the visual <tt>Component</tt> displaying the video streaming from the local
* peer/user to the remote peer(s).
*
* <p><b>Warning</b>: It is not to be used for any other purposes because it may not represent the
* current state of the model of this view.
*/
private Component localVideo;
/** The label showing whether the voice has been set to mute. */
private final JLabel muteStatusLabel = new JLabel();
/** The <tt>Icon</tt> which represents the avatar of the associated call peer. */
private ImageIcon peerImage;
/** The name of the peer. */
private String peerName;
/** The label containing the user photo. */
private final JLabel photoLabel;
/** Sound remote level label. */
private Component remoteLevel;
/**
* The <tt>Component</tt> which {@link #updateViewFromModelInEventDispatchThread()} last added to
* {@link #center} as the visual <tt>Component</tt> displaying the video streaming from the remote
* peer(s) to the local peer/user.
*
* <p><b>Warning</b>: It is not to be used for any other purposes because it may not represent the
* current state of the model of this view.
*/
private Component remoteVideo;
/** Current id for security image. */
private ImageID securityImageID = ImageLoader.SECURE_BUTTON_OFF;
/** The panel containing security related components. */
private SecurityPanel<?> securityPanel;
/** The security status of the peer */
private final SecurityStatusLabel securityStatusLabel = new SecurityStatusLabel();
/** The status bar component. */
private final Component statusBar;
/** The facility which aids this instance in the dealing with the video-related information. */
private final UIVideoHandler2 uiVideoHandler;
/**
* The <tt>Observer</tt> which listens to changes in the video-related information detected and
* reported by {@link #uiVideoHandler}.
*/
private final Observer uiVideoHandlerObserver =
new Observer() {
public void update(Observable o, Object arg) {
updateViewFromModel();
}
};
/**
* The <tt>Runnable</tt> which is scheduled by {@link #updateViewFromModel()} for execution in the
* AWT event dispatching thread in order to invoke {@link
* #updateViewFromModelInEventDispatchThread()}.
*/
private final Runnable updateViewFromModelInEventDispatchThread =
new Runnable() {
public void run() {
/*
* We receive events/notifications from various threads and we
* respond to them in the AWT event dispatching thread. It is
* possible to first schedule an event to be brought to the AWT
* event dispatching thread, then to have #dispose() invoked on
* this instance and, finally, to receive the scheduled event in
* the AWT event dispatching thread. In such a case, this
* disposed instance should not respond to the event.
*/
if (!disposed) updateViewFromModelInEventDispatchThread();
}
};
/**
* Creates a <tt>CallPeerPanel</tt> for the given call peer.
*
* @param callRenderer the renderer of the call
* @param callPeer the <tt>CallPeer</tt> represented in this panel
* @param uiVideoHandler the facility which is to aid the new instance in the dealing with the
* video-related information
*/
public OneToOneCallPeerPanel(
SwingCallRenderer callRenderer, CallPeer callPeer, UIVideoHandler2 uiVideoHandler) {
this.callRenderer = callRenderer;
this.callPeer = callPeer;
// we need to obtain call as soon as possible
// cause if it fails too quickly we may fail to show it
this.call = callPeer.getCall();
this.uiVideoHandler = uiVideoHandler;
peerName = CallManager.getPeerDisplayName(callPeer);
securityPanel = SecurityPanel.create(this, callPeer, null);
photoLabel = new JLabel(getPhotoLabelIcon());
center = createCenter();
statusBar = createStatusBar();
setPeerImage(CallManager.getPeerImage(callPeer));
/* Lay out the main Components of the UI. */
setLayout(new GridBagLayout());
GridBagConstraints cnstrnts = new GridBagConstraints();
if (center != null) {
cnstrnts.fill = GridBagConstraints.BOTH;
cnstrnts.gridx = 0;
cnstrnts.gridy = 1;
cnstrnts.weightx = 1;
cnstrnts.weighty = 1;
add(center, cnstrnts);
}
if (statusBar != null) {
cnstrnts.fill = GridBagConstraints.NONE;
cnstrnts.gridx = 0;
cnstrnts.gridy = 3;
cnstrnts.weightx = 0;
cnstrnts.weighty = 0;
cnstrnts.insets = new Insets(5, 0, 0, 0);
add(statusBar, cnstrnts);
}
createSoundLevelIndicators();
initSecuritySettings();
/*
* Add the listeners which will be notified about changes in the model
* and which will update this view.
*/
callPeerAdapter = new CallPeerAdapter(callPeer, this);
uiVideoHandler.addObserver(uiVideoHandlerObserver);
/*
* This view adapts to whether it is displayed in full-screen or
* windowed mode.
*/
if (callRenderer instanceof Component) {
((Component) callRenderer).addPropertyChangeListener(CallContainer.PROP_FULL_SCREEN, this);
}
OperationSetDesktopSharingClient desktopSharingClient =
callPeer.getProtocolProvider().getOperationSet(OperationSetDesktopSharingClient.class);
if (desktopSharingClient != null) {
desktopSharingMouseAndKeyboardListener =
new DesktopSharingMouseAndKeyboardListener(callPeer, desktopSharingClient);
} else desktopSharingMouseAndKeyboardListener = null;
updateViewFromModel();
}
/**
* Creates the <tt>Component</tt> hierarchy of the central area of this <tt>CallPeerPanel</tt>
* which displays the photo of the <tt>CallPeer</tt> or the video if any.
*/
private VideoContainer createCenter() {
photoLabel.setPreferredSize(new Dimension(90, 90));
return createVideoContainer(photoLabel);
}
/** Creates sound level related components. */
private void createSoundLevelIndicators() {
TransparentPanel localLevelPanel = new TransparentPanel(new BorderLayout(5, 0));
TransparentPanel remoteLevelPanel = new TransparentPanel(new BorderLayout(5, 0));
localLevel =
new InputVolumeControlButton(
call, ImageLoader.MICROPHONE, ImageLoader.MUTE_BUTTON, false, false);
remoteLevel =
new OutputVolumeControlButton(call.getConference(), ImageLoader.HEADPHONE, false, false)
.getComponent();
final SoundLevelIndicator localLevelIndicator =
new SoundLevelIndicator(SoundLevelChangeEvent.MIN_LEVEL, SoundLevelChangeEvent.MAX_LEVEL);
final SoundLevelIndicator remoteLevelIndicator =
new SoundLevelIndicator(SoundLevelChangeEvent.MIN_LEVEL, SoundLevelChangeEvent.MAX_LEVEL);
localLevelPanel.add(localLevel, BorderLayout.WEST);
localLevelPanel.add(localLevelIndicator, BorderLayout.CENTER);
remoteLevelPanel.add(remoteLevel, BorderLayout.WEST);
remoteLevelPanel.add(remoteLevelIndicator, BorderLayout.CENTER);
GridBagConstraints constraints = new GridBagConstraints();
constraints.fill = GridBagConstraints.NONE;
constraints.gridx = 0;
constraints.gridy = 5;
constraints.weightx = 0;
constraints.weighty = 0;
constraints.insets = new Insets(10, 0, 0, 0);
add(localLevelPanel, constraints);
constraints.fill = GridBagConstraints.NONE;
constraints.gridx = 0;
constraints.gridy = 6;
constraints.weightx = 0;
constraints.weighty = 0;
constraints.insets = new Insets(5, 0, 10, 0);
add(remoteLevelPanel, constraints);
if (!GuiActivator.getConfigurationService()
.getBoolean(
"net.java.sip.communicator.impl.gui.main.call." + "DISABLE_SOUND_LEVEL_INDICATORS",
false)) {
callPeer.addStreamSoundLevelListener(
new SoundLevelListener() {
public void soundLevelChanged(Object source, int level) {
remoteLevelIndicator.updateSoundLevel(level);
}
});
/*
* By the time the UI gets to be initialized, the callPeer may have
* been removed from its Call. As far as the UI is concerned, the
* callPeer will never have a Call again and there will be no audio
* levels to display anyway so there is no point in throwing a
* NullPointerException here.
*/
if (call != null) {
call.addLocalUserSoundLevelListener(
new SoundLevelListener() {
public void soundLevelChanged(Object source, int level) {
localLevelIndicator.updateSoundLevel(level);
}
});
}
}
}
/**
* Creates the <tt>Component</tt> hierarchy of the area of status-related information such as
* <tt>CallPeer</tt> display name, call duration, security status.
*
* @return the root of the <tt>Component</tt> hierarchy of the area of status-related information
* such as <tt>CallPeer</tt> display name, call duration, security status
*/
private Component createStatusBar() {
// stateLabel
callStatusLabel.setForeground(Color.WHITE);
dtmfLabel.setForeground(Color.WHITE);
callStatusLabel.setText(callPeer.getState().getLocalizedStateString());
PeerStatusPanel statusPanel = new PeerStatusPanel(new GridBagLayout());
GridBagConstraints constraints = new GridBagConstraints();
constraints.gridx = 0;
constraints.gridy = 0;
statusPanel.add(securityStatusLabel, constraints);
initSecurityStatusLabel();
constraints.gridx++;
statusPanel.add(holdStatusLabel, constraints);
constraints.gridx++;
statusPanel.add(muteStatusLabel, constraints);
constraints.gridx++;
callStatusLabel.setBorder(BorderFactory.createEmptyBorder(2, 3, 2, 12));
statusPanel.add(callStatusLabel, constraints);
constraints.gridx++;
constraints.weightx = 1f;
statusPanel.add(dtmfLabel, constraints);
return statusPanel;
}
/**
* Creates a new AWT <tt>Container</tt> which can display a single <tt>Component</tt> at a time
* (supposedly, one which represents video) and, in the absence of such a <tt>Component</tt>,
* displays a predefined default <tt>Component</tt> (in accord with the previous supposition, one
* which is the default when there is no video). The returned <tt>Container</tt> will track the
* <tt>Components</tt>s added to and removed from it in order to make sure that
* <tt>noVideoContainer</tt> is displayed as described.
*
* @param noVideoComponent the predefined default <tt>Component</tt> to be displayed in the
* returned <tt>Container</tt> when there is no other <tt>Component</tt> in it
* @return a new <tt>Container</tt> which can display a single <tt>Component</tt> at a time and,
* in the absence of such a <tt>Component</tt>, displays <tt>noVideoComponent</tt>
*/
private VideoContainer createVideoContainer(Component noVideoComponent) {
Container oldParent = noVideoComponent.getParent();
if (oldParent != null) oldParent.remove(noVideoComponent);
return new VideoContainer(noVideoComponent, false);
}
/**
* Releases the resources acquired by this instance which require explicit disposal (e.g. any
* listeners added to the depicted <tt>CallPeer</tt>. Invoked by <tt>OneToOneCallPanel</tt> when
* it determines that this <tt>OneToOneCallPeerPanel</tt> is no longer necessary.
*/
public void dispose() {
disposed = true;
callPeerAdapter.dispose();
uiVideoHandler.deleteObserver(uiVideoHandlerObserver);
if (callRenderer instanceof Component) {
((Component) callRenderer).removePropertyChangeListener(CallContainer.PROP_FULL_SCREEN, this);
}
}
/**
* Returns the parent <tt>CallPanel</tt> containing this renderer.
*
* @return the parent <tt>CallPanel</tt> containing this renderer
*/
public CallPanel getCallPanel() {
return callRenderer.getCallContainer();
}
/**
* Returns the parent call renderer.
*
* @return the parent call renderer
*/
public CallRenderer getCallRenderer() {
return callRenderer;
}
/**
* Returns the component associated with this renderer.
*
* @return the component associated with this renderer
*/
public Component getComponent() {
return this;
}
/**
* Returns the name of the peer, contained in this panel.
*
* @return the name of the peer, contained in this panel
*/
public String getPeerName() {
return peerName;
}
/**
* Gets the <tt>Icon</tt> to be displayed in {@link #photoLabel}.
*
* @return the <tt>Icon</tt> to be displayed in {@link #photoLabel}
*/
private ImageIcon getPhotoLabelIcon() {
return (peerImage == null)
? new ImageIcon(ImageLoader.getImage(ImageLoader.DEFAULT_USER_PHOTO))
: peerImage;
}
/** Initializes the security settings for this call peer. */
private void initSecuritySettings() {
CallPeerSecurityStatusEvent securityEvent = callPeer.getCurrentSecuritySettings();
if (securityEvent instanceof CallPeerSecurityOnEvent)
securityOn((CallPeerSecurityOnEvent) securityEvent);
}
/** Initializes the security status label, shown in the call status bar. */
private void initSecurityStatusLabel() {
securityStatusLabel.setBorder(BorderFactory.createEmptyBorder(2, 5, 2, 5));
securityStatusLabel.addMouseListener(
new MouseAdapter() {
/** Invoked when a mouse button has been pressed on a component. */
@Override
public void mousePressed(MouseEvent e) {
// Only show the security details if the security is on.
SrtpControl ctrl = securityPanel.getSecurityControl();
if (ctrl instanceof ZrtpControl && ctrl.getSecureCommunicationStatus()) {
setSecurityPanelVisible(
!callRenderer
.getCallContainer()
.getCallWindow()
.getFrame()
.getGlassPane()
.isVisible());
}
}
});
}
/**
* Determines whether the visual <tt>Component</tt> depicting the video streaming from the local
* peer/user to the remote peer(s) is currently visible.
*
* @return <tt>true</tt> if the visual <tt>Component</tt> depicting the video streaming from the
* local peer/user to the remote peer(s) is currently visible; otherwise, <tt>false</tt>
*/
public boolean isLocalVideoVisible() {
return uiVideoHandler.isLocalVideoVisible();
}
/** Reloads all icons. */
public void loadSkin() {
if (localLevel != null)
localLevel.setIcon(new ImageIcon(ImageLoader.getImage(ImageLoader.MICROPHONE)));
if (remoteLevel != null && remoteLevel instanceof Skinnable)
((Skinnable) remoteLevel).loadSkin();
if (muteStatusLabel.getIcon() != null)
muteStatusLabel.setIcon(new ImageIcon(ImageLoader.getImage(ImageLoader.MUTE_STATUS_ICON)));
if (holdStatusLabel.getIcon() != null)
holdStatusLabel.setIcon(new ImageIcon(ImageLoader.getImage(ImageLoader.HOLD_STATUS_ICON)));
securityStatusLabel.setIcon(new ImageIcon(ImageLoader.getImage(securityImageID)));
if (peerImage == null) {
photoLabel.setIcon(new ImageIcon(ImageLoader.getImage(ImageLoader.DEFAULT_USER_PHOTO)));
}
}
/**
* Prints the given DTMG character through this <tt>CallPeerRenderer</tt>.
*
* @param dtmfChar the DTMF char to print
*/
public void printDTMFTone(char dtmfChar) {
dtmfLabel.setText(dtmfLabel.getText() + dtmfChar);
if (dtmfLabel.getBorder() == null)
dtmfLabel.setBorder(BorderFactory.createEmptyBorder(2, 1, 2, 5));
}
/**
* Notifies this instance about a change in the value of a property of a source which of interest
* to this instance. For example, <tt>OneToOneCallPeerPanel</tt> updates its user
* interface-related properties upon changes in the value of the {@link
* CallContainer#PROP_FULL_SCREEN} property of its associated {@link #callRenderer}.
*
* @param ev a <tt>PropertyChangeEvent</tt> which identifies the source, the name of the property
* and the old and new values
*/
public void propertyChange(PropertyChangeEvent ev) {
if (CallContainer.PROP_FULL_SCREEN.equals(ev.getPropertyName())) updateViewFromModel();
}
/**
* Re-dispatches glass pane mouse events only in case they occur on the security panel.
*
* @param glassPane the glass pane
* @param e the mouse event in question
*/
private void redispatchMouseEvent(Component glassPane, MouseEvent e) {
Point glassPanePoint = e.getPoint();
Point securityPanelPoint =
SwingUtilities.convertPoint(glassPane, glassPanePoint, securityPanel);
Component component;
Point componentPoint;
if (securityPanelPoint.y > 0) {
component = securityPanel;
componentPoint = securityPanelPoint;
} else {
Container contentPane =
callRenderer.getCallContainer().getCallWindow().getFrame().getContentPane();
Point containerPoint = SwingUtilities.convertPoint(glassPane, glassPanePoint, contentPane);
component =
SwingUtilities.getDeepestComponentAt(contentPane, containerPoint.x, containerPoint.y);
componentPoint = SwingUtilities.convertPoint(contentPane, glassPanePoint, component);
}
if (component != null)
component.dispatchEvent(
new MouseEvent(
component,
e.getID(),
e.getWhen(),
e.getModifiers(),
componentPoint.x,
componentPoint.y,
e.getClickCount(),
e.isPopupTrigger()));
e.consume();
}
/**
* The handler for the security event received. The security event for starting establish a secure
* connection.
*
* @param evt the security started event received
*/
public void securityNegotiationStarted(CallPeerSecurityNegotiationStartedEvent evt) {
if (Boolean.parseBoolean(
GuiActivator.getResources().getSettingsString("impl.gui.PARANOIA_UI"))) {
SrtpControl srtpControl = null;
if (callPeer instanceof MediaAwareCallPeer) srtpControl = evt.getSecurityController();
securityPanel = new ParanoiaTimerSecurityPanel<SrtpControl>(srtpControl);
setSecurityPanelVisible(true);
}
}
/**
* Indicates that the security has gone off.
*
* @param evt the <tt>CallPeerSecurityOffEvent</tt> that notified us
*/
public void securityOff(final CallPeerSecurityOffEvent evt) {
if (!SwingUtilities.isEventDispatchThread()) {
SwingUtilities.invokeLater(
new Runnable() {
public void run() {
securityOff(evt);
}
});
return;
}
if (evt.getSessionType() == CallPeerSecurityOffEvent.AUDIO_SESSION) {
securityStatusLabel.setText("");
securityStatusLabel.setSecurityOff();
if (securityStatusLabel.getBorder() == null)
securityStatusLabel.setBorder(BorderFactory.createEmptyBorder(2, 5, 2, 3));
}
securityPanel.securityOff(evt);
}
/**
* Indicates that the security is turned on.
*
* <p>Sets the secured status icon to the status panel and initializes/updates the corresponding
* security details.
*
* @param evt Details about the event that caused this message.
*/
public void securityOn(final CallPeerSecurityOnEvent evt) {
if (!SwingUtilities.isEventDispatchThread()) {
SwingUtilities.invokeLater(
new Runnable() {
public void run() {
securityOn(evt);
}
});
return;
}
// If the securityOn is called without a specific event, we'll just set
// the security label status to on.
if (evt == null) {
securityStatusLabel.setSecurityOn();
return;
}
SrtpControl srtpControl = evt.getSecurityController();
if (!srtpControl.requiresSecureSignalingTransport()
|| callPeer.getProtocolProvider().isSignalingTransportSecure()) {
if (srtpControl instanceof ZrtpControl) {
securityStatusLabel.setText("zrtp");
if (!((ZrtpControl) srtpControl).isSecurityVerified())
securityStatusLabel.setSecurityPending();
else securityStatusLabel.setSecurityOn();
} else securityStatusLabel.setSecurityOn();
}
// if we have some other panel, using other control
if (!srtpControl.getClass().isInstance(securityPanel.getSecurityControl())
|| (securityPanel instanceof ParanoiaTimerSecurityPanel)) {
setSecurityPanelVisible(false);
securityPanel = SecurityPanel.create(this, callPeer, srtpControl);
if (srtpControl instanceof ZrtpControl)
((ZrtpSecurityPanel) securityPanel).setSecurityStatusLabel(securityStatusLabel);
}
securityPanel.securityOn(evt);
boolean isSecurityLowPriority =
Boolean.parseBoolean(
GuiActivator.getResources()
.getSettingsString("impl.gui.I_DONT_CARE_THAT_MUCH_ABOUT_SECURITY"));
// Display ZRTP panel in case SAS was not verified or a AOR mismtach
// was detected during creation of ZrtpSecurityPanel.
// Don't show panel if user does not care about security at all.
if (srtpControl instanceof ZrtpControl
&& !isSecurityLowPriority
&& (!((ZrtpControl) srtpControl).isSecurityVerified()
|| ((ZrtpSecurityPanel) securityPanel).isZidAorMismatch())) {
setSecurityPanelVisible(true);
}
this.revalidate();
}
/** Indicates that the security status is pending confirmation. */
public void securityPending() {
securityStatusLabel.setSecurityPending();
}
/**
* Indicates that the security is timeouted, is not supported by the other end.
*
* @param evt Details about the event that caused this message.
*/
public void securityTimeout(final CallPeerSecurityTimeoutEvent evt) {
if (!SwingUtilities.isEventDispatchThread()) {
SwingUtilities.invokeLater(
new Runnable() {
public void run() {
securityTimeout(evt);
}
});
return;
}
if (securityPanel != null) securityPanel.securityTimeout(evt);
}
/**
* Sets the reason of a call failure if one occurs. The renderer should display this reason to the
* user.
*
* @param reason the reason to display
*/
public void setErrorReason(final String reason) {
if (!SwingUtilities.isEventDispatchThread()) {
SwingUtilities.invokeLater(
new Runnable() {
public void run() {
setErrorReason(reason);
}
});
return;
}
if (errorMessageComponent == null) {
errorMessageComponent = new JTextPane();
JTextPane textPane = (JTextPane) errorMessageComponent;
textPane.setEditable(false);
textPane.setOpaque(false);
StyledDocument doc = textPane.getStyledDocument();
MutableAttributeSet standard = new SimpleAttributeSet();
StyleConstants.setAlignment(standard, StyleConstants.ALIGN_CENTER);
StyleConstants.setFontFamily(standard, textPane.getFont().getFamily());
StyleConstants.setFontSize(standard, 12);
doc.setParagraphAttributes(0, 0, standard, true);
GridBagConstraints constraints = new GridBagConstraints();
constraints.fill = GridBagConstraints.HORIZONTAL;
constraints.gridx = 0;
constraints.gridy = 4;
constraints.weightx = 1;
constraints.weighty = 0;
constraints.insets = new Insets(5, 0, 0, 0);
add(errorMessageComponent, constraints);
this.revalidate();
}
errorMessageComponent.setText(reason);
if (isVisible()) errorMessageComponent.repaint();
}
/**
* Shows/hides the visual <tt>Component</tt> depicting the video streaming from the local
* peer/user to the remote peer(s).
*
* @param visible <tt>true</tt> to show the visual <tt>Component</tt> depicting the video
* streaming from the local peer/user to the remote peer(s); <tt>false</tt>, otherwise
*/
public void setLocalVideoVisible(boolean visible) {
uiVideoHandler.setLocalVideoVisible(visible);
}
/**
* Sets the mute status icon to the status panel.
*
* @param isMute indicates if the call with this peer is muted
*/
public void setMute(final boolean isMute) {
if (!SwingUtilities.isEventDispatchThread()) {
SwingUtilities.invokeLater(
new Runnable() {
public void run() {
setMute(isMute);
}
});
return;
}
if (isMute) {
muteStatusLabel.setIcon(new ImageIcon(ImageLoader.getImage(ImageLoader.MUTE_STATUS_ICON)));
muteStatusLabel.setBorder(BorderFactory.createEmptyBorder(2, 3, 2, 3));
} else {
muteStatusLabel.setIcon(null);
muteStatusLabel.setBorder(BorderFactory.createEmptyBorder(0, 0, 0, 0));
}
// Update input volume control button state to reflect the current
// mute status.
if (localLevel.isSelected() != isMute) localLevel.setSelected(isMute);
this.revalidate();
this.repaint();
}
/**
* Sets the "on hold" property value.
*
* @param isOnHold indicates if the call with this peer is put on hold
*/
public void setOnHold(final boolean isOnHold) {
if (!SwingUtilities.isEventDispatchThread()) {
SwingUtilities.invokeLater(
new Runnable() {
public void run() {
setOnHold(isOnHold);
}
});
return;
}
if (isOnHold) {
holdStatusLabel.setIcon(new ImageIcon(ImageLoader.getImage(ImageLoader.HOLD_STATUS_ICON)));
holdStatusLabel.setBorder(BorderFactory.createEmptyBorder(2, 3, 2, 3));
} else {
holdStatusLabel.setIcon(null);
holdStatusLabel.setBorder(BorderFactory.createEmptyBorder(0, 0, 0, 0));
}
this.revalidate();
this.repaint();
}
/**
* Set the image of the peer
*
* @param image new image
*/
public void setPeerImage(byte[] image) {
// If the image is still null we try to obtain it from one of the
// available contact sources.
if (image == null || image.length <= 0) {
GuiActivator.getContactList().setSourceContactImage(peerName, photoLabel, 100, 100);
} else {
peerImage = ImageUtils.getScaledRoundedIcon(image, 100, 100);
if (peerImage == null) peerImage = getPhotoLabelIcon();
if (!SwingUtilities.isEventDispatchThread()) {
SwingUtilities.invokeLater(
new Runnable() {
public void run() {
photoLabel.setIcon(peerImage);
photoLabel.repaint();
}
});
} else {
photoLabel.setIcon(peerImage);
photoLabel.repaint();
}
}
}
/**
* Sets the name of the peer.
*
* @param name the name of the peer
*/
public void setPeerName(final String name) {
if (!SwingUtilities.isEventDispatchThread()) {
SwingUtilities.invokeLater(
new Runnable() {
public void run() {
setPeerName(name);
}
});
return;
}
peerName = name;
((OneToOneCallPanel) callRenderer).setPeerName(name);
}
/**
* Sets the state of the contained call peer by specifying the state name.
*
* @param oldState the previous state of the peer
* @param newState the new state of the peer
* @param stateString the state of the contained call peer
*/
public void setPeerState(
final CallPeerState oldState, final CallPeerState newState, final String stateString) {
if (!SwingUtilities.isEventDispatchThread()) {
SwingUtilities.invokeLater(
new Runnable() {
public void run() {
setPeerState(oldState, newState, stateString);
}
});
return;
}
this.callStatusLabel.setText(stateString);
if (newState == CallPeerState.CONNECTED
&& !CallPeerState.isOnHold(oldState)
&& !securityStatusLabel.isSecurityStatusSet()) {
securityStatusLabel.setSecurityOff();
}
}
/**
* Shows/hides the security panel.
*
* @param isVisible <tt>true</tt> to show the security panel, <tt>false</tt> to hide it
*/
public void setSecurityPanelVisible(final boolean isVisible) {
if (!SwingUtilities.isEventDispatchThread()) {
SwingUtilities.invokeLater(
new Runnable() {
public void run() {
setSecurityPanelVisible(isVisible);
}
});
return;
}
final JFrame callFrame = callRenderer.getCallContainer().getCallWindow().getFrame();
final JPanel glassPane = (JPanel) callFrame.getGlassPane();
if (!isVisible) {
// Need to hide the security panel explicitly in order to keep the
// fade effect.
securityPanel.setVisible(false);
glassPane.setVisible(false);
glassPane.removeAll();
} else {
glassPane.setLayout(null);
glassPane.addMouseListener(
new MouseListener() {
public void mouseClicked(MouseEvent e) {
redispatchMouseEvent(glassPane, e);
}
public void mouseEntered(MouseEvent e) {
redispatchMouseEvent(glassPane, e);
}
public void mouseExited(MouseEvent e) {
redispatchMouseEvent(glassPane, e);
}
public void mousePressed(MouseEvent e) {
redispatchMouseEvent(glassPane, e);
}
public void mouseReleased(MouseEvent e) {
redispatchMouseEvent(glassPane, e);
}
});
Point securityLabelPoint = securityStatusLabel.getLocation();
Point newPoint =
SwingUtilities.convertPoint(
securityStatusLabel.getParent(),
securityLabelPoint.x,
securityLabelPoint.y,
callFrame);
securityPanel.setBeginPoint(new Point((int) newPoint.getX() + 15, 0));
securityPanel.setBounds(0, (int) newPoint.getY() - 5, this.getWidth(), 130);
glassPane.add(securityPanel);
// Need to show the security panel explicitly in order to keep the
// fade effect.
securityPanel.setVisible(true);
glassPane.setVisible(true);
glassPane.addComponentListener(
new ComponentAdapter() {
/** Invoked when the component's size changes. */
@Override
public void componentResized(ComponentEvent e) {
if (glassPane.isVisible()) {
glassPane.setVisible(false);
callFrame.removeComponentListener(this);
}
}
});
}
}
/**
* Updates this view i.e. <tt>OneToOneCallPeerPanel</tt> so that it depicts the current state of
* its model i.e. <tt>callPeer</tt>.
*/
private void updateViewFromModel() {
/*
* We receive events/notifications from various threads and we respond
* to them in the AWT event dispatching thread. It is possible to first
* schedule an event to be brought to the AWT event dispatching thread,
* then to have #dispose() invoked on this instance and, finally, to
* receive the scheduled event in the AWT event dispatching thread. In
* such a case, this disposed instance should not respond to the event
* because it may, for example, steal a visual Components depicting
* video (which cannot belong to more than one parent at a time) from
* another non-disposed OneToOneCallPeerPanel.
*/
if (!disposed) {
if (SwingUtilities.isEventDispatchThread()) updateViewFromModelInEventDispatchThread();
else {
SwingUtilities.invokeLater(updateViewFromModelInEventDispatchThread);
}
}
}
/**
* Updates this view i.e. <tt>OneToOneCallPeerPanel</tt> so that it depicts the current state of
* its model i.e. <tt>callPeer</tt>. The update is performed in the AWT event dispatching thread.
*/
private void updateViewFromModelInEventDispatchThread() {
/*
* We receive events/notifications from various threads and we respond
* to them in the AWT event dispatching thread. It is possible to first
* schedule an event to be brought to the AWT event dispatching thread,
* then to have #dispose() invoked on this instance and, finally, to
* receive the scheduled event in the AWT event dispatching thread. In
* such a case, this disposed instance should not respond to the event
* because it may, for example, steal a visual Components depicting
* video (which cannot belong to more than one parent at a time) from
* another non-disposed OneToOneCallPeerPanel.
*/
if (disposed) return;
/*
* Update the display of visual <tt>Component</tt>s depicting video
* streaming between the local peer/user and the remote peer(s).
*/
OperationSetVideoTelephony videoTelephony =
callPeer.getProtocolProvider().getOperationSet(OperationSetVideoTelephony.class);
Component remoteVideo = null;
Component localVideo = null;
if (videoTelephony != null) {
List<Component> remoteVideos = videoTelephony.getVisualComponents(callPeer);
if ((remoteVideos != null) && !remoteVideos.isEmpty()) {
/*
* TODO OneToOneCallPeerPanel displays a one-to-one conversation
* between the local peer/user and a specific remote peer. If
* the remote peer is the focus of a telephony conference of its
* own, it may be sending multiple videos to the local peer.
* Switching to a user interface which displays multiple videos
* is the responsibility of whoever decided that this
* OneToOneCallPeerPanel is to be used to depict the current
* state of the CallConference associated with the CallPeer
* depicted by this instance. If that switching decides that
* this instance is to continue being the user interface, then
* we should probably pick up the remote video which is
* generated by the remote peer and not one of its
* ConferenceMembers.
*/
remoteVideo = remoteVideos.get(0);
}
if (uiVideoHandler.isLocalVideoVisible()) {
try {
localVideo = videoTelephony.getLocalVisualComponent(callPeer);
} catch (OperationFailedException ofe) {
/*
* Well, we cannot do much about the exception. We'll just
* not display the local video.
*/
logger.warn("Failed to retrieve local video to be displayed.", ofe);
}
}
/*
* Determine whether there is actually a change in the local and
* remote videos which requires an update.
*/
boolean localVideoChanged =
((localVideo != this.localVideo)
|| ((localVideo != null) && !UIVideoHandler2.isAncestor(center, localVideo)));
boolean remoteVideoChanged =
((remoteVideo != this.remoteVideo)
|| ((remoteVideo != null) && !UIVideoHandler2.isAncestor(center, remoteVideo)));
// If the remote video has changed, maybe the CallPanel can display
// the LO/SD/HD button.
if (remoteVideoChanged) {
// Updates video component which may listen the mouse and key
// events.
if (desktopSharingMouseAndKeyboardListener != null) {
desktopSharingMouseAndKeyboardListener.setVideoComponent(remoteVideo);
}
CallPanel callPanel = callRenderer.getCallContainer();
// The remote video has been added, then tries to display the
// LO/SD/HD button.
if (remoteVideo != null) {
callPanel.addRemoteVideoSpecificComponents(callPeer);
}
// The remote video has been removed, then hide the LO/SD/HD
// button if it is currently displayed.
else {
callPanel.removeRemoteVideoSpecificComponents();
}
}
if (localVideoChanged || remoteVideoChanged) {
/*
* VideoContainer and JAWTRenderer cannot handle random
* additions of Components. Removing the localVideo when the
* user has requests its hiding though, should work without
* removing all Components from the VideoCotainer and adding
* them again.
*/
if (localVideoChanged && !remoteVideoChanged && (localVideo == null)) {
if (this.localVideo != null) {
center.remove(this.localVideo);
this.localVideo = null;
if (closeLocalVisualComponentButton != null)
center.remove(closeLocalVisualComponentButton);
}
} else {
center.removeAll();
this.localVideo = null;
this.remoteVideo = null;
/*
* AWT does not make a guarantee about the Z order even
* within an operating system i.e. the order of adding the
* Components to their Container does not mean that they
* will be determinedly painted in that or reverse order.
* Anyway, there appears to be an expectation among the
* developers less acquainted with AWT that AWT paints the
* Components of a Container in an order that is the reverse
* of the order of their adding. In order to satisfy that
* expectation and thus give at least some idea to the
* developers reading the code bellow, do add the Components
* according to that expectation.
*/
if (localVideo != null) {
if (closeLocalVisualComponentButton == null) {
closeLocalVisualComponentButton = new CloseLocalVisualComponentButton(uiVideoHandler);
}
center.add(closeLocalVisualComponentButton, VideoLayout.CLOSE_LOCAL_BUTTON, -1);
center.add(localVideo, VideoLayout.LOCAL, -1);
this.localVideo = localVideo;
}
if (remoteVideo != null) {
center.add(remoteVideo, VideoLayout.CENTER_REMOTE, -1);
this.remoteVideo = remoteVideo;
}
}
}
}
}
/** The <tt>TransparentPanel</tt> that will display the peer status. */
private static class PeerStatusPanel extends TransparentPanel {
/**
* Silence the serial warning. Though there isn't a plan to serialize the instances of the
* class, there're no fields so the default serialization routine will work.
*/
private static final long serialVersionUID = 0L;
/**
* Constructs a new <tt>PeerStatusPanel</tt>.
*
* @param layout the <tt>LayoutManager</tt> to use
*/
public PeerStatusPanel(LayoutManager layout) {
super(layout);
}
/** @{inheritDoc} */
@Override
public void paintComponent(Graphics g) {
super.paintComponent(g);
g = g.create();
try {
AntialiasingManager.activateAntialiasing(g);
g.setColor(Color.DARK_GRAY);
g.fillRoundRect(0, 0, this.getWidth(), this.getHeight(), 10, 10);
} finally {
g.dispose();
}
}
}
}
/**
* Updates this view i.e. <tt>OneToOneCallPeerPanel</tt> so that it depicts the current state of
* its model i.e. <tt>callPeer</tt>. The update is performed in the AWT event dispatching thread.
*/
private void updateViewFromModelInEventDispatchThread() {
/*
* We receive events/notifications from various threads and we respond
* to them in the AWT event dispatching thread. It is possible to first
* schedule an event to be brought to the AWT event dispatching thread,
* then to have #dispose() invoked on this instance and, finally, to
* receive the scheduled event in the AWT event dispatching thread. In
* such a case, this disposed instance should not respond to the event
* because it may, for example, steal a visual Components depicting
* video (which cannot belong to more than one parent at a time) from
* another non-disposed OneToOneCallPeerPanel.
*/
if (disposed) return;
/*
* Update the display of visual <tt>Component</tt>s depicting video
* streaming between the local peer/user and the remote peer(s).
*/
OperationSetVideoTelephony videoTelephony =
callPeer.getProtocolProvider().getOperationSet(OperationSetVideoTelephony.class);
Component remoteVideo = null;
Component localVideo = null;
if (videoTelephony != null) {
List<Component> remoteVideos = videoTelephony.getVisualComponents(callPeer);
if ((remoteVideos != null) && !remoteVideos.isEmpty()) {
/*
* TODO OneToOneCallPeerPanel displays a one-to-one conversation
* between the local peer/user and a specific remote peer. If
* the remote peer is the focus of a telephony conference of its
* own, it may be sending multiple videos to the local peer.
* Switching to a user interface which displays multiple videos
* is the responsibility of whoever decided that this
* OneToOneCallPeerPanel is to be used to depict the current
* state of the CallConference associated with the CallPeer
* depicted by this instance. If that switching decides that
* this instance is to continue being the user interface, then
* we should probably pick up the remote video which is
* generated by the remote peer and not one of its
* ConferenceMembers.
*/
remoteVideo = remoteVideos.get(0);
}
if (uiVideoHandler.isLocalVideoVisible()) {
try {
localVideo = videoTelephony.getLocalVisualComponent(callPeer);
} catch (OperationFailedException ofe) {
/*
* Well, we cannot do much about the exception. We'll just
* not display the local video.
*/
logger.warn("Failed to retrieve local video to be displayed.", ofe);
}
}
/*
* Determine whether there is actually a change in the local and
* remote videos which requires an update.
*/
boolean localVideoChanged =
((localVideo != this.localVideo)
|| ((localVideo != null) && !UIVideoHandler2.isAncestor(center, localVideo)));
boolean remoteVideoChanged =
((remoteVideo != this.remoteVideo)
|| ((remoteVideo != null) && !UIVideoHandler2.isAncestor(center, remoteVideo)));
// If the remote video has changed, maybe the CallPanel can display
// the LO/SD/HD button.
if (remoteVideoChanged) {
// Updates video component which may listen the mouse and key
// events.
if (desktopSharingMouseAndKeyboardListener != null) {
desktopSharingMouseAndKeyboardListener.setVideoComponent(remoteVideo);
}
CallPanel callPanel = callRenderer.getCallContainer();
// The remote video has been added, then tries to display the
// LO/SD/HD button.
if (remoteVideo != null) {
callPanel.addRemoteVideoSpecificComponents(callPeer);
}
// The remote video has been removed, then hide the LO/SD/HD
// button if it is currently displayed.
else {
callPanel.removeRemoteVideoSpecificComponents();
}
}
if (localVideoChanged || remoteVideoChanged) {
/*
* VideoContainer and JAWTRenderer cannot handle random
* additions of Components. Removing the localVideo when the
* user has requests its hiding though, should work without
* removing all Components from the VideoCotainer and adding
* them again.
*/
if (localVideoChanged && !remoteVideoChanged && (localVideo == null)) {
if (this.localVideo != null) {
center.remove(this.localVideo);
this.localVideo = null;
if (closeLocalVisualComponentButton != null)
center.remove(closeLocalVisualComponentButton);
}
} else {
center.removeAll();
this.localVideo = null;
this.remoteVideo = null;
/*
* AWT does not make a guarantee about the Z order even
* within an operating system i.e. the order of adding the
* Components to their Container does not mean that they
* will be determinedly painted in that or reverse order.
* Anyway, there appears to be an expectation among the
* developers less acquainted with AWT that AWT paints the
* Components of a Container in an order that is the reverse
* of the order of their adding. In order to satisfy that
* expectation and thus give at least some idea to the
* developers reading the code bellow, do add the Components
* according to that expectation.
*/
if (localVideo != null) {
if (closeLocalVisualComponentButton == null) {
closeLocalVisualComponentButton = new CloseLocalVisualComponentButton(uiVideoHandler);
}
center.add(closeLocalVisualComponentButton, VideoLayout.CLOSE_LOCAL_BUTTON, -1);
center.add(localVideo, VideoLayout.LOCAL, -1);
this.localVideo = localVideo;
}
if (remoteVideo != null) {
center.add(remoteVideo, VideoLayout.CENTER_REMOTE, -1);
this.remoteVideo = remoteVideo;
}
}
}
}
}