use of android.hardware.display.WifiDisplay in project android_frameworks_base by DirtyUnicorns.
the class WifiDisplayAdapter method requestRenameLocked.
public void requestRenameLocked(String address, String alias) {
if (DEBUG) {
Slog.d(TAG, "requestRenameLocked: address=" + address + ", alias=" + alias);
}
if (alias != null) {
alias = alias.trim();
if (alias.isEmpty() || alias.equals(address)) {
alias = null;
}
}
WifiDisplay display = mPersistentDataStore.getRememberedWifiDisplay(address);
if (display != null && !Objects.equal(display.getDeviceAlias(), alias)) {
display = new WifiDisplay(address, display.getDeviceName(), alias, false, false, false);
if (mPersistentDataStore.rememberWifiDisplay(display)) {
mPersistentDataStore.saveIfNeeded();
updateRememberedDisplaysLocked();
scheduleStatusChangedBroadcastLocked();
}
}
if (mActiveDisplay != null && mActiveDisplay.getDeviceAddress().equals(address)) {
renameDisplayDeviceLocked(mActiveDisplay.getFriendlyDisplayName());
}
}
use of android.hardware.display.WifiDisplay in project android_frameworks_base by DirtyUnicorns.
the class WifiDisplayController method updateConnection.
/**
* This function is called repeatedly after each asynchronous operation
* until all preconditions for the connection have been satisfied and the
* connection is established (or not).
*/
private void updateConnection() {
// Step 0. Stop scans if necessary to prevent interference while connected.
// Resume scans later when no longer attempting to connect.
updateScanState();
// have disconnected from the old one.
if (mRemoteDisplay != null && mConnectedDevice != mDesiredDevice) {
Slog.i(TAG, "Stopped listening for RTSP connection on " + mRemoteDisplayInterface + " from Wifi display: " + mConnectedDevice.deviceName);
mRemoteDisplay.dispose();
mRemoteDisplay = null;
mRemoteDisplayInterface = null;
mRemoteDisplayConnected = false;
mHandler.removeCallbacks(mRtspTimeout);
mWifiP2pManager.setMiracastMode(WifiP2pManager.MIRACAST_DISABLED);
unadvertiseDisplay();
// continue to next step
}
// Step 2. Before we try to connect to a new device, disconnect from the old one.
if (mDisconnectingDevice != null) {
// wait for asynchronous callback
return;
}
if (mConnectedDevice != null && mConnectedDevice != mDesiredDevice) {
Slog.i(TAG, "Disconnecting from Wifi display: " + mConnectedDevice.deviceName);
mDisconnectingDevice = mConnectedDevice;
mConnectedDevice = null;
mConnectedDeviceGroupInfo = null;
unadvertiseDisplay();
final WifiP2pDevice oldDevice = mDisconnectingDevice;
mWifiP2pManager.removeGroup(mWifiP2pChannel, new ActionListener() {
@Override
public void onSuccess() {
Slog.i(TAG, "Disconnected from Wifi display: " + oldDevice.deviceName);
next();
}
@Override
public void onFailure(int reason) {
Slog.i(TAG, "Failed to disconnect from Wifi display: " + oldDevice.deviceName + ", reason=" + reason);
next();
}
private void next() {
if (mDisconnectingDevice == oldDevice) {
mDisconnectingDevice = null;
updateConnection();
}
}
});
// wait for asynchronous callback
return;
}
// to the old one.
if (mCancelingDevice != null) {
// wait for asynchronous callback
return;
}
if (mConnectingDevice != null && mConnectingDevice != mDesiredDevice) {
Slog.i(TAG, "Canceling connection to Wifi display: " + mConnectingDevice.deviceName);
mCancelingDevice = mConnectingDevice;
mConnectingDevice = null;
unadvertiseDisplay();
mHandler.removeCallbacks(mConnectionTimeout);
final WifiP2pDevice oldDevice = mCancelingDevice;
mWifiP2pManager.cancelConnect(mWifiP2pChannel, new ActionListener() {
@Override
public void onSuccess() {
Slog.i(TAG, "Canceled connection to Wifi display: " + oldDevice.deviceName);
next();
}
@Override
public void onFailure(int reason) {
Slog.i(TAG, "Failed to cancel connection to Wifi display: " + oldDevice.deviceName + ", reason=" + reason);
next();
}
private void next() {
if (mCancelingDevice == oldDevice) {
mCancelingDevice = null;
updateConnection();
}
}
});
// wait for asynchronous callback
return;
}
// autonomous GO, then mission accomplished.
if (mDesiredDevice == null) {
if (mWifiDisplayCertMode) {
mListener.onDisplaySessionInfo(getSessionInfo(mConnectedDeviceGroupInfo, 0));
}
unadvertiseDisplay();
// done
return;
}
// Step 5. Try to connect.
if (mConnectedDevice == null && mConnectingDevice == null) {
Slog.i(TAG, "Connecting to Wifi display: " + mDesiredDevice.deviceName);
mConnectingDevice = mDesiredDevice;
WifiP2pConfig config = new WifiP2pConfig();
WpsInfo wps = new WpsInfo();
if (mWifiDisplayWpsConfig != WpsInfo.INVALID) {
wps.setup = mWifiDisplayWpsConfig;
} else if (mConnectingDevice.wpsPbcSupported()) {
wps.setup = WpsInfo.PBC;
} else if (mConnectingDevice.wpsDisplaySupported()) {
// We do keypad if peer does display
wps.setup = WpsInfo.KEYPAD;
} else {
wps.setup = WpsInfo.DISPLAY;
}
config.wps = wps;
config.deviceAddress = mConnectingDevice.deviceAddress;
// Helps with STA & P2P concurrency
config.groupOwnerIntent = WifiP2pConfig.MIN_GROUP_OWNER_INTENT;
WifiDisplay display = createWifiDisplay(mConnectingDevice);
advertiseDisplay(display, null, 0, 0, 0);
final WifiP2pDevice newDevice = mDesiredDevice;
mWifiP2pManager.connect(mWifiP2pChannel, config, new ActionListener() {
@Override
public void onSuccess() {
// The connection may not yet be established. We still need to wait
// for WIFI_P2P_CONNECTION_CHANGED_ACTION. However, we might never
// get that broadcast, so we register a timeout.
Slog.i(TAG, "Initiated connection to Wifi display: " + newDevice.deviceName);
mHandler.postDelayed(mConnectionTimeout, CONNECTION_TIMEOUT_SECONDS * 1000);
}
@Override
public void onFailure(int reason) {
if (mConnectingDevice == newDevice) {
Slog.i(TAG, "Failed to initiate connection to Wifi display: " + newDevice.deviceName + ", reason=" + reason);
mConnectingDevice = null;
handleConnectionFailure(false);
}
}
});
// wait for asynchronous callback
return;
}
// Step 6. Listen for incoming RTSP connection.
if (mConnectedDevice != null && mRemoteDisplay == null) {
Inet4Address addr = getInterfaceAddress(mConnectedDeviceGroupInfo);
if (addr == null) {
Slog.i(TAG, "Failed to get local interface address for communicating " + "with Wifi display: " + mConnectedDevice.deviceName);
handleConnectionFailure(false);
// done
return;
}
mWifiP2pManager.setMiracastMode(WifiP2pManager.MIRACAST_SOURCE);
final WifiP2pDevice oldDevice = mConnectedDevice;
final int port = getPortNumber(mConnectedDevice);
final String iface = addr.getHostAddress() + ":" + port;
mRemoteDisplayInterface = iface;
Slog.i(TAG, "Listening for RTSP connection on " + iface + " from Wifi display: " + mConnectedDevice.deviceName);
mRemoteDisplay = RemoteDisplay.listen(iface, new RemoteDisplay.Listener() {
@Override
public void onDisplayConnected(Surface surface, int width, int height, int flags, int session) {
if (mConnectedDevice == oldDevice && !mRemoteDisplayConnected) {
Slog.i(TAG, "Opened RTSP connection with Wifi display: " + mConnectedDevice.deviceName);
mRemoteDisplayConnected = true;
mHandler.removeCallbacks(mRtspTimeout);
if (mWifiDisplayCertMode) {
mListener.onDisplaySessionInfo(getSessionInfo(mConnectedDeviceGroupInfo, session));
}
final WifiDisplay display = createWifiDisplay(mConnectedDevice);
advertiseDisplay(display, surface, width, height, flags);
}
}
@Override
public void onDisplayDisconnected() {
if (mConnectedDevice == oldDevice) {
Slog.i(TAG, "Closed RTSP connection with Wifi display: " + mConnectedDevice.deviceName);
mHandler.removeCallbacks(mRtspTimeout);
disconnect();
}
}
@Override
public void onDisplayError(int error) {
if (mConnectedDevice == oldDevice) {
Slog.i(TAG, "Lost RTSP connection with Wifi display due to error " + error + ": " + mConnectedDevice.deviceName);
mHandler.removeCallbacks(mRtspTimeout);
handleConnectionFailure(false);
}
}
}, mHandler, mContext.getOpPackageName());
// Use extended timeout value for certification, as some tests require user inputs
int rtspTimeout = mWifiDisplayCertMode ? RTSP_TIMEOUT_SECONDS_CERT_MODE : RTSP_TIMEOUT_SECONDS;
mHandler.postDelayed(mRtspTimeout, rtspTimeout * 1000);
}
}
use of android.hardware.display.WifiDisplay in project android_frameworks_base by DirtyUnicorns.
the class WifiDisplayController method advertiseDisplay.
private void advertiseDisplay(final WifiDisplay display, final Surface surface, final int width, final int height, final int flags) {
if (!Objects.equal(mAdvertisedDisplay, display) || mAdvertisedDisplaySurface != surface || mAdvertisedDisplayWidth != width || mAdvertisedDisplayHeight != height || mAdvertisedDisplayFlags != flags) {
final WifiDisplay oldDisplay = mAdvertisedDisplay;
final Surface oldSurface = mAdvertisedDisplaySurface;
mAdvertisedDisplay = display;
mAdvertisedDisplaySurface = surface;
mAdvertisedDisplayWidth = width;
mAdvertisedDisplayHeight = height;
mAdvertisedDisplayFlags = flags;
mHandler.post(new Runnable() {
@Override
public void run() {
if (oldSurface != null && surface != oldSurface) {
mListener.onDisplayDisconnected();
} else if (oldDisplay != null && !oldDisplay.hasSameAddress(display)) {
mListener.onDisplayConnectionFailed();
}
if (display != null) {
if (!display.hasSameAddress(oldDisplay)) {
mListener.onDisplayConnecting(display);
} else if (!display.equals(oldDisplay)) {
// The address is the same but some other property such as the
// name must have changed.
mListener.onDisplayChanged(display);
}
if (surface != null && surface != oldSurface) {
mListener.onDisplayConnected(display, surface, width, height, flags);
}
}
}
});
}
}
use of android.hardware.display.WifiDisplay in project android_frameworks_base by DirtyUnicorns.
the class WifiDisplayController method handleScanResults.
private void handleScanResults() {
final int count = mAvailableWifiDisplayPeers.size();
final WifiDisplay[] displays = WifiDisplay.CREATOR.newArray(count);
for (int i = 0; i < count; i++) {
WifiP2pDevice device = mAvailableWifiDisplayPeers.get(i);
displays[i] = createWifiDisplay(device);
updateDesiredDevice(device);
}
mHandler.post(new Runnable() {
@Override
public void run() {
mListener.onScanResults(displays);
}
});
}
use of android.hardware.display.WifiDisplay in project android_frameworks_base by DirtyUnicorns.
the class MediaRouter method updateWifiDisplayStatus.
static void updateWifiDisplayStatus(WifiDisplayStatus status) {
WifiDisplay[] displays;
WifiDisplay activeDisplay;
if (status.getFeatureState() == WifiDisplayStatus.FEATURE_STATE_ON) {
displays = status.getDisplays();
activeDisplay = status.getActiveDisplay();
// Filter the list down to just the active display.
if (!sStatic.mCanConfigureWifiDisplays) {
if (activeDisplay != null) {
displays = new WifiDisplay[] { activeDisplay };
} else {
displays = WifiDisplay.EMPTY_ARRAY;
}
}
} else {
displays = WifiDisplay.EMPTY_ARRAY;
activeDisplay = null;
}
String activeDisplayAddress = activeDisplay != null ? activeDisplay.getDeviceAddress() : null;
// Add or update routes.
for (int i = 0; i < displays.length; i++) {
final WifiDisplay d = displays[i];
if (shouldShowWifiDisplay(d, activeDisplay)) {
RouteInfo route = findWifiDisplayRoute(d);
if (route == null) {
route = makeWifiDisplayRoute(d, status);
addRouteStatic(route);
} else {
String address = d.getDeviceAddress();
boolean disconnected = !address.equals(activeDisplayAddress) && address.equals(sStatic.mPreviousActiveWifiDisplayAddress);
updateWifiDisplayRoute(route, d, status, disconnected);
}
if (d.equals(activeDisplay)) {
selectRouteStatic(route.getSupportedTypes(), route, false);
}
}
}
// Remove stale routes.
for (int i = sStatic.mRoutes.size(); i-- > 0; ) {
RouteInfo route = sStatic.mRoutes.get(i);
if (route.mDeviceAddress != null) {
WifiDisplay d = findWifiDisplay(displays, route.mDeviceAddress);
if (d == null || !shouldShowWifiDisplay(d, activeDisplay)) {
removeRouteStatic(route);
}
}
}
// Remember the current active wifi display address so that we can infer disconnections.
// TODO: This hack will go away once all of this is moved into the media router service.
sStatic.mPreviousActiveWifiDisplayAddress = activeDisplayAddress;
}
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