/* * Copyright (C) 2013 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package android.support.v7.media; import android.app.ActivityManager; import android.content.ComponentName; import android.content.ContentResolver; import android.content.Context; import android.content.Intent; import android.content.IntentFilter; import android.content.IntentSender; import android.content.pm.PackageManager.NameNotFoundException; import android.content.res.Resources; import android.net.Uri; import android.os.Bundle; import android.os.Handler; import android.os.Looper; import android.os.Message; import android.support.annotation.IntDef; import android.support.annotation.NonNull; import android.support.annotation.Nullable; import android.support.v4.app.ActivityManagerCompat; import android.support.v4.hardware.display.DisplayManagerCompat; import android.support.v4.media.VolumeProviderCompat; import android.support.v4.media.session.MediaSessionCompat; import android.support.v4.util.Pair; import android.support.v7.media.MediaRouteProvider.ProviderMetadata; import android.support.v7.media.MediaRouteProvider.RouteController; import android.text.TextUtils; import android.util.Log; import android.view.Display; import java.lang.annotation.Retention; import java.lang.annotation.RetentionPolicy; import java.lang.ref.WeakReference; import java.util.ArrayList; import java.util.Collections; import java.util.HashMap; import java.util.HashSet; import java.util.Iterator; import java.util.List; import java.util.Locale; import java.util.Map; import java.util.Set; /** * MediaRouter allows applications to control the routing of media channels * and streams from the current device to external speakers and destination devices. *

* A MediaRouter instance is retrieved through {@link #getInstance}. Applications * can query the media router about the currently selected route and its capabilities * to determine how to send content to the route's destination. Applications can * also {@link RouteInfo#sendControlRequest send control requests} to the route * to ask the route's destination to perform certain remote control functions * such as playing media. *

* See also {@link MediaRouteProvider} for information on how an application * can publish new media routes to the media router. *

* The media router API is not thread-safe; all interactions with it must be * done from the main thread of the process. *

*/ public final class MediaRouter { private static final String TAG = "MediaRouter"; private static final boolean DEBUG = Log.isLoggable(TAG, Log.DEBUG); /** * Passed to {@link android.support.v7.media.MediaRouteProvider.RouteController#onUnselect(int)} * and {@link Callback#onRouteUnselected(MediaRouter, RouteInfo, int)} when the reason the route * was unselected is unknown. */ public static final int UNSELECT_REASON_UNKNOWN = 0; /** * Passed to {@link android.support.v7.media.MediaRouteProvider.RouteController#onUnselect(int)} * and {@link Callback#onRouteUnselected(MediaRouter, RouteInfo, int)} when the user pressed * the disconnect button to disconnect and keep playing. *

* * @see {@link MediaRouteDescriptor#canDisconnectAndKeepPlaying()}. */ public static final int UNSELECT_REASON_DISCONNECTED = 1; /** * Passed to {@link android.support.v7.media.MediaRouteProvider.RouteController#onUnselect(int)} * and {@link Callback#onRouteUnselected(MediaRouter, RouteInfo, int)} when the user pressed * the stop casting button. */ public static final int UNSELECT_REASON_STOPPED = 2; /** * Passed to {@link android.support.v7.media.MediaRouteProvider.RouteController#onUnselect(int)} * and {@link Callback#onRouteUnselected(MediaRouter, RouteInfo, int)} when the user selected * a different route. */ public static final int UNSELECT_REASON_ROUTE_CHANGED = 3; // Maintains global media router state for the process. // This field is initialized in MediaRouter.getInstance() before any // MediaRouter objects are instantiated so it is guaranteed to be // valid whenever any instance method is invoked. static GlobalMediaRouter sGlobal; // Context-bound state of the media router. final Context mContext; final ArrayList mCallbackRecords = new ArrayList(); /** @hide */ @IntDef(flag = true, value = { CALLBACK_FLAG_PERFORM_ACTIVE_SCAN, CALLBACK_FLAG_REQUEST_DISCOVERY, CALLBACK_FLAG_UNFILTERED_EVENTS } ) @Retention(RetentionPolicy.SOURCE) private @interface CallbackFlags {} /** * Flag for {@link #addCallback}: Actively scan for routes while this callback * is registered. *

* When this flag is specified, the media router will actively scan for new * routes. Certain routes, such as wifi display routes, may not be discoverable * except when actively scanning. This flag is typically used when the route picker * dialog has been opened by the user to ensure that the route information is * up to date. *

* Active scanning may consume a significant amount of power and may have intrusive * effects on wireless connectivity. Therefore it is important that active scanning * only be requested when it is actually needed to satisfy a user request to * discover and select a new route. *

* This flag implies {@link #CALLBACK_FLAG_REQUEST_DISCOVERY} but performing * active scans is much more expensive than a normal discovery request. *

* * @see #CALLBACK_FLAG_REQUEST_DISCOVERY */ public static final int CALLBACK_FLAG_PERFORM_ACTIVE_SCAN = 1 << 0; /** * Flag for {@link #addCallback}: Do not filter route events. *

* When this flag is specified, the callback will be invoked for events that affect any * route even if they do not match the callback's filter. *

*/ public static final int CALLBACK_FLAG_UNFILTERED_EVENTS = 1 << 1; /** * Flag for {@link #addCallback}: Request passive route discovery while this * callback is registered, except on {@link ActivityManager#isLowRamDevice low-RAM devices}. *

* When this flag is specified, the media router will try to discover routes. * Although route discovery is intended to be efficient, checking for new routes may * result in some network activity and could slowly drain the battery. Therefore * applications should only specify {@link #CALLBACK_FLAG_REQUEST_DISCOVERY} when * they are running in the foreground and would like to provide the user with the * option of connecting to new routes. *

* Applications should typically add a callback using this flag in the * {@link android.app.Activity activity's} {@link android.app.Activity#onStart onStart} * method and remove it in the {@link android.app.Activity#onStop onStop} method. * The {@link android.support.v7.app.MediaRouteDiscoveryFragment} fragment may * also be used for this purpose. *

* On {@link ActivityManager#isLowRamDevice low-RAM devices} this flag * will be ignored. Refer to * {@link #addCallback(MediaRouteSelector, Callback, int) addCallback} for details. *

* * @see android.support.v7.app.MediaRouteDiscoveryFragment */ public static final int CALLBACK_FLAG_REQUEST_DISCOVERY = 1 << 2; /** * Flag for {@link #addCallback}: Request passive route discovery while this * callback is registered, even on {@link ActivityManager#isLowRamDevice low-RAM devices}. *

* This flag has a significant performance impact on low-RAM devices * since it may cause many media route providers to be started simultaneously. * It is much better to use {@link #CALLBACK_FLAG_REQUEST_DISCOVERY} instead to avoid * performing passive discovery on these devices altogether. Refer to * {@link #addCallback(MediaRouteSelector, Callback, int) addCallback} for details. *

* * @see android.support.v7.app.MediaRouteDiscoveryFragment */ public static final int CALLBACK_FLAG_FORCE_DISCOVERY = 1 << 3; /** * Flag for {@link #isRouteAvailable}: Ignore the default route. *

* This flag is used to determine whether a matching non-default route is available. * This constraint may be used to decide whether to offer the route chooser dialog * to the user. There is no point offering the chooser if there are no * non-default choices. *

*/ public static final int AVAILABILITY_FLAG_IGNORE_DEFAULT_ROUTE = 1 << 0; /** * Flag for {@link #isRouteAvailable}: Require an actual route to be matched. *

* If this flag is not set, then {@link #isRouteAvailable} will return true * if it is possible to discover a matching route even if discovery is not in * progress or if no matching route has yet been found. This feature is used to * save resources by removing the need to perform passive route discovery on * {@link ActivityManager#isLowRamDevice low-RAM devices}. *

* If this flag is set, then {@link #isRouteAvailable} will only return true if * a matching route has actually been discovered. *

*/ public static final int AVAILABILITY_FLAG_REQUIRE_MATCH = 1 << 1; MediaRouter(Context context) { mContext = context; } /** * Gets an instance of the media router service associated with the context. *

* The application is responsible for holding a strong reference to the returned * {@link MediaRouter} instance, such as by storing the instance in a field of * the {@link android.app.Activity}, to ensure that the media router remains alive * as long as the application is using its features. *

* In other words, the support library only holds a {@link WeakReference weak reference} * to each media router instance. When there are no remaining strong references to the * media router instance, all of its callbacks will be removed and route discovery * will no longer be performed on its behalf. *

* * @return The media router instance for the context. The application must hold * a strong reference to this object as long as it is in use. */ public static MediaRouter getInstance(@NonNull Context context) { if (context == null) { throw new IllegalArgumentException("context must not be null"); } checkCallingThread(); if (sGlobal == null) { sGlobal = new GlobalMediaRouter(context.getApplicationContext()); sGlobal.start(); } return sGlobal.getRouter(context); } /** * Gets information about the {@link MediaRouter.RouteInfo routes} currently known to * this media router. */ public List getRoutes() { checkCallingThread(); return sGlobal.getRoutes(); } /** * Gets information about the {@link MediaRouter.ProviderInfo route providers} * currently known to this media router. */ public List getProviders() { checkCallingThread(); return sGlobal.getProviders(); } /** * Gets the default route for playing media content on the system. *

* The system always provides a default route. *

* * @return The default route, which is guaranteed to never be null. */ @NonNull public RouteInfo getDefaultRoute() { checkCallingThread(); return sGlobal.getDefaultRoute(); } /** * Gets the currently selected route. *

* The application should examine the route's * {@link RouteInfo#getControlFilters media control intent filters} to assess the * capabilities of the route before attempting to use it. *

* *

Example

*
     * public boolean playMovie() {
     *     MediaRouter mediaRouter = MediaRouter.getInstance(context);
     *     MediaRouter.RouteInfo route = mediaRouter.getSelectedRoute();
     *
     *     // First try using the remote playback interface, if supported.
     *     if (route.supportsControlCategory(MediaControlIntent.CATEGORY_REMOTE_PLAYBACK)) {
     *         // The route supports remote playback.
     *         // Try to send it the Uri of the movie to play.
     *         Intent intent = new Intent(MediaControlIntent.ACTION_PLAY);
     *         intent.addCategory(MediaControlIntent.CATEGORY_REMOTE_PLAYBACK);
     *         intent.setDataAndType("http://example.com/videos/movie.mp4", "video/mp4");
     *         if (route.supportsControlRequest(intent)) {
     *             route.sendControlRequest(intent, null);
     *             return true; // sent the request to play the movie
     *         }
     *     }
     *
     *     // If remote playback was not possible, then play locally.
     *     if (route.supportsControlCategory(MediaControlIntent.CATEGORY_LIVE_VIDEO)) {
     *         // The route supports live video streaming.
     *         // Prepare to play content locally in a window or in a presentation.
     *         return playMovieInWindow();
     *     }
     *
     *     // Neither interface is supported, so we can't play the movie to this route.
     *     return false;
     * }
     * 
* * @return The selected route, which is guaranteed to never be null. * * @see RouteInfo#getControlFilters * @see RouteInfo#supportsControlCategory * @see RouteInfo#supportsControlRequest */ @NonNull public RouteInfo getSelectedRoute() { checkCallingThread(); return sGlobal.getSelectedRoute(); } /** * Returns the selected route if it matches the specified selector, otherwise * selects the default route and returns it. If there is one live audio route * (usually Bluetooth A2DP), it will be selected instead of default route. * * @param selector The selector to match. * @return The previously selected route if it matched the selector, otherwise the * newly selected default route which is guaranteed to never be null. * * @see MediaRouteSelector * @see RouteInfo#matchesSelector */ @NonNull public RouteInfo updateSelectedRoute(@NonNull MediaRouteSelector selector) { if (selector == null) { throw new IllegalArgumentException("selector must not be null"); } checkCallingThread(); if (DEBUG) { Log.d(TAG, "updateSelectedRoute: " + selector); } RouteInfo route = sGlobal.getSelectedRoute(); if (!route.isDefaultOrBluetooth() && !route.matchesSelector(selector)) { route = sGlobal.chooseFallbackRoute(); sGlobal.selectRoute(route); } return route; } /** * Selects the specified route. * * @param route The route to select. */ public void selectRoute(@NonNull RouteInfo route) { if (route == null) { throw new IllegalArgumentException("route must not be null"); } checkCallingThread(); if (DEBUG) { Log.d(TAG, "selectRoute: " + route); } sGlobal.selectRoute(route); } /** * Unselects the current round and selects the default route instead. *

* The reason given must be one of: *

* * @param reason The reason for disconnecting the current route. */ public void unselect(int reason) { if (reason < MediaRouter.UNSELECT_REASON_UNKNOWN || reason > MediaRouter.UNSELECT_REASON_ROUTE_CHANGED) { throw new IllegalArgumentException("Unsupported reason to unselect route"); } checkCallingThread(); // Choose the fallback route if it's not already selected. // Otherwise, select the default route. RouteInfo fallbackRoute = sGlobal.chooseFallbackRoute(); if (sGlobal.getSelectedRoute() != fallbackRoute) { sGlobal.selectRoute(fallbackRoute, reason); } else { sGlobal.selectRoute(sGlobal.getDefaultRoute(), reason); } } /** * Returns true if there is a route that matches the specified selector. *

* This method returns true if there are any available routes that match the * selector regardless of whether they are enabled or disabled. If the * {@link #AVAILABILITY_FLAG_IGNORE_DEFAULT_ROUTE} flag is specified, then * the method will only consider non-default routes. *

*

* On {@link ActivityManager#isLowRamDevice low-RAM devices} this method * will return true if it is possible to discover a matching route even if * discovery is not in progress or if no matching route has yet been found. * Use {@link #AVAILABILITY_FLAG_REQUIRE_MATCH} to require an actual match. *

* * @param selector The selector to match. * @param flags Flags to control the determination of whether a route may be * available. May be zero or some combination of * {@link #AVAILABILITY_FLAG_IGNORE_DEFAULT_ROUTE} and * {@link #AVAILABILITY_FLAG_REQUIRE_MATCH}. * @return True if a matching route may be available. */ public boolean isRouteAvailable(@NonNull MediaRouteSelector selector, int flags) { if (selector == null) { throw new IllegalArgumentException("selector must not be null"); } checkCallingThread(); return sGlobal.isRouteAvailable(selector, flags); } /** * Registers a callback to discover routes that match the selector and to receive * events when they change. *

* This is a convenience method that has the same effect as calling * {@link #addCallback(MediaRouteSelector, Callback, int)} without flags. *

* * @param selector A route selector that indicates the kinds of routes that the * callback would like to discover. * @param callback The callback to add. * @see #removeCallback */ public void addCallback(MediaRouteSelector selector, Callback callback) { addCallback(selector, callback, 0); } /** * Registers a callback to discover routes that match the selector and to receive * events when they change. *

* The selector describes the kinds of routes that the application wants to * discover. For example, if the application wants to use * live audio routes then it should include the * {@link MediaControlIntent#CATEGORY_LIVE_AUDIO live audio media control intent category} * in its selector when it adds a callback to the media router. * The selector may include any number of categories. *

* If the callback has already been registered, then the selector is added to * the set of selectors being monitored by the callback. *

* By default, the callback will only be invoked for events that affect routes * that match the specified selector. Event filtering may be disabled by specifying * the {@link #CALLBACK_FLAG_UNFILTERED_EVENTS} flag when the callback is registered. *

* Applications should use the {@link #isRouteAvailable} method to determine * whether is it possible to discover a route with the desired capabilities * and therefore whether the media route button should be shown to the user. *

* The {@link #CALLBACK_FLAG_REQUEST_DISCOVERY} flag should be used while the application * is in the foreground to request that passive discovery be performed if there are * sufficient resources to allow continuous passive discovery. * On {@link ActivityManager#isLowRamDevice low-RAM devices} this flag will be * ignored to conserve resources. *

* The {@link #CALLBACK_FLAG_FORCE_DISCOVERY} flag should be used when * passive discovery absolutely must be performed, even on low-RAM devices. * This flag has a significant performance impact on low-RAM devices * since it may cause many media route providers to be started simultaneously. * It is much better to use {@link #CALLBACK_FLAG_REQUEST_DISCOVERY} instead to avoid * performing passive discovery on these devices altogether. *

* The {@link #CALLBACK_FLAG_PERFORM_ACTIVE_SCAN} flag should be used when the * media route chooser dialog is showing to confirm the presence of available * routes that the user may connect to. This flag may use substantially more * power. *

* *

Example

*
     * public class MyActivity extends Activity {
     *     private MediaRouter mRouter;
     *     private MediaRouter.Callback mCallback;
     *     private MediaRouteSelector mSelector;
     *
     *     protected void onCreate(Bundle savedInstanceState) {
     *         super.onCreate(savedInstanceState);
     *
     *         mRouter = Mediarouter.getInstance(this);
     *         mCallback = new MyCallback();
     *         mSelector = new MediaRouteSelector.Builder()
     *                 .addControlCategory(MediaControlIntent.CATEGORY_LIVE_AUDIO)
     *                 .addControlCategory(MediaControlIntent.CATEGORY_REMOTE_PLAYBACK)
     *                 .build();
     *     }
     *
     *     // Add the callback on start to tell the media router what kinds of routes
     *     // the application is interested in so that it can try to discover suitable ones.
     *     public void onStart() {
     *         super.onStart();
     *
     *         mediaRouter.addCallback(mSelector, mCallback,
     *                 MediaRouter.CALLBACK_FLAG_REQUEST_DISCOVERY);
     *
     *         MediaRouter.RouteInfo route = mediaRouter.updateSelectedRoute(mSelector);
     *         // do something with the route...
     *     }
     *
     *     // Remove the selector on stop to tell the media router that it no longer
     *     // needs to invest effort trying to discover routes of these kinds for now.
     *     public void onStop() {
     *         super.onStop();
     *
     *         mediaRouter.removeCallback(mCallback);
     *     }
     *
     *     private final class MyCallback extends MediaRouter.Callback {
     *         // Implement callback methods as needed.
     *     }
     * }
     * 
* * @param selector A route selector that indicates the kinds of routes that the * callback would like to discover. * @param callback The callback to add. * @param flags Flags to control the behavior of the callback. * May be zero or a combination of {@link #CALLBACK_FLAG_PERFORM_ACTIVE_SCAN} and * {@link #CALLBACK_FLAG_UNFILTERED_EVENTS}. * @see #removeCallback */ public void addCallback(@NonNull MediaRouteSelector selector, @NonNull Callback callback, @CallbackFlags int flags) { if (selector == null) { throw new IllegalArgumentException("selector must not be null"); } if (callback == null) { throw new IllegalArgumentException("callback must not be null"); } checkCallingThread(); if (DEBUG) { Log.d(TAG, "addCallback: selector=" + selector + ", callback=" + callback + ", flags=" + Integer.toHexString(flags)); } CallbackRecord record; int index = findCallbackRecord(callback); if (index < 0) { record = new CallbackRecord(this, callback); mCallbackRecords.add(record); } else { record = mCallbackRecords.get(index); } boolean updateNeeded = false; if ((flags & ~record.mFlags) != 0) { record.mFlags |= flags; updateNeeded = true; } if (!record.mSelector.contains(selector)) { record.mSelector = new MediaRouteSelector.Builder(record.mSelector) .addSelector(selector) .build(); updateNeeded = true; } if (updateNeeded) { sGlobal.updateDiscoveryRequest(); } } /** * Removes the specified callback. It will no longer receive events about * changes to media routes. * * @param callback The callback to remove. * @see #addCallback */ public void removeCallback(@NonNull Callback callback) { if (callback == null) { throw new IllegalArgumentException("callback must not be null"); } checkCallingThread(); if (DEBUG) { Log.d(TAG, "removeCallback: callback=" + callback); } int index = findCallbackRecord(callback); if (index >= 0) { mCallbackRecords.remove(index); sGlobal.updateDiscoveryRequest(); } } private int findCallbackRecord(Callback callback) { final int count = mCallbackRecords.size(); for (int i = 0; i < count; i++) { if (mCallbackRecords.get(i).mCallback == callback) { return i; } } return -1; } /** * Registers a media route provider within this application process. *

* The provider will be added to the list of providers that all {@link MediaRouter} * instances within this process can use to discover routes. *

* * @param providerInstance The media route provider instance to add. * * @see MediaRouteProvider * @see #removeCallback */ public void addProvider(@NonNull MediaRouteProvider providerInstance) { if (providerInstance == null) { throw new IllegalArgumentException("providerInstance must not be null"); } checkCallingThread(); if (DEBUG) { Log.d(TAG, "addProvider: " + providerInstance); } sGlobal.addProvider(providerInstance); } /** * Unregisters a media route provider within this application process. *

* The provider will be removed from the list of providers that all {@link MediaRouter} * instances within this process can use to discover routes. *

* * @param providerInstance The media route provider instance to remove. * * @see MediaRouteProvider * @see #addCallback */ public void removeProvider(@NonNull MediaRouteProvider providerInstance) { if (providerInstance == null) { throw new IllegalArgumentException("providerInstance must not be null"); } checkCallingThread(); if (DEBUG) { Log.d(TAG, "removeProvider: " + providerInstance); } sGlobal.removeProvider(providerInstance); } /** * Adds a remote control client to enable remote control of the volume * of the selected route. *

* The remote control client must have previously been registered with * the audio manager using the {@link android.media.AudioManager#registerRemoteControlClient * AudioManager.registerRemoteControlClient} method. *

* * @param remoteControlClient The {@link android.media.RemoteControlClient} to register. */ public void addRemoteControlClient(@NonNull Object remoteControlClient) { if (remoteControlClient == null) { throw new IllegalArgumentException("remoteControlClient must not be null"); } checkCallingThread(); if (DEBUG) { Log.d(TAG, "addRemoteControlClient: " + remoteControlClient); } sGlobal.addRemoteControlClient(remoteControlClient); } /** * Removes a remote control client. * * @param remoteControlClient The {@link android.media.RemoteControlClient} * to unregister. */ public void removeRemoteControlClient(@NonNull Object remoteControlClient) { if (remoteControlClient == null) { throw new IllegalArgumentException("remoteControlClient must not be null"); } if (DEBUG) { Log.d(TAG, "removeRemoteControlClient: " + remoteControlClient); } sGlobal.removeRemoteControlClient(remoteControlClient); } /** * Sets the media session to enable remote control of the volume of the * selected route. This should be used instead of * {@link #addRemoteControlClient} when using media sessions. Set the * session to null to clear it. * * @param mediaSession The {@link android.media.session.MediaSession} to * use. */ public void setMediaSession(Object mediaSession) { if (DEBUG) { Log.d(TAG, "addMediaSession: " + mediaSession); } sGlobal.setMediaSession(mediaSession); } /** * Sets a compat media session to enable remote control of the volume of the * selected route. This should be used instead of * {@link #addRemoteControlClient} when using {@link MediaSessionCompat}. * Set the session to null to clear it. * * @param mediaSession */ public void setMediaSessionCompat(MediaSessionCompat mediaSession) { if (DEBUG) { Log.d(TAG, "addMediaSessionCompat: " + mediaSession); } sGlobal.setMediaSessionCompat(mediaSession); } public MediaSessionCompat.Token getMediaSessionToken() { return sGlobal.getMediaSessionToken(); } /** * Ensures that calls into the media router are on the correct thread. * It pays to be a little paranoid when global state invariants are at risk. */ static void checkCallingThread() { if (Looper.myLooper() != Looper.getMainLooper()) { throw new IllegalStateException("The media router service must only be " + "accessed on the application's main thread."); } } static boolean equal(T a, T b) { return a == b || (a != null && b != null && a.equals(b)); } /** * Provides information about a media route. *

* Each media route has a list of {@link MediaControlIntent media control} * {@link #getControlFilters intent filters} that describe the capabilities of the * route and the manner in which it is used and controlled. *

*/ public static class RouteInfo { private final ProviderInfo mProvider; private final String mDescriptorId; private final String mUniqueId; private String mName; private String mDescription; private Uri mIconUri; private boolean mEnabled; private boolean mConnecting; private int mConnectionState; private boolean mCanDisconnect; private final ArrayList mControlFilters = new ArrayList<>(); private int mPlaybackType; private int mPlaybackStream; private int mDeviceType; private int mVolumeHandling; private int mVolume; private int mVolumeMax; private Display mPresentationDisplay; private int mPresentationDisplayId = PRESENTATION_DISPLAY_ID_NONE; private Bundle mExtras; private IntentSender mSettingsIntent; MediaRouteDescriptor mDescriptor; /** @hide */ @IntDef({CONNECTION_STATE_DISCONNECTED, CONNECTION_STATE_CONNECTING, CONNECTION_STATE_CONNECTED}) @Retention(RetentionPolicy.SOURCE) private @interface ConnectionState {} /** * The default connection state indicating the route is disconnected. * * @see #getConnectionState */ public static final int CONNECTION_STATE_DISCONNECTED = 0; /** * A connection state indicating the route is in the process of connecting and is not yet * ready for use. * * @see #getConnectionState */ public static final int CONNECTION_STATE_CONNECTING = 1; /** * A connection state indicating the route is connected. * * @see #getConnectionState */ public static final int CONNECTION_STATE_CONNECTED = 2; /** @hide */ @IntDef({PLAYBACK_TYPE_LOCAL,PLAYBACK_TYPE_REMOTE}) @Retention(RetentionPolicy.SOURCE) private @interface PlaybackType {} /** * The default playback type, "local", indicating the presentation of the media * is happening on the same device (e.g. a phone, a tablet) as where it is * controlled from. * * @see #getPlaybackType */ public static final int PLAYBACK_TYPE_LOCAL = 0; /** * A playback type indicating the presentation of the media is happening on * a different device (i.e. the remote device) than where it is controlled from. * * @see #getPlaybackType */ public static final int PLAYBACK_TYPE_REMOTE = 1; /** @hide */ @IntDef({DEVICE_TYPE_UNKNOWN, DEVICE_TYPE_TV, DEVICE_TYPE_SPEAKER, DEVICE_TYPE_BLUETOOTH}) @Retention(RetentionPolicy.SOURCE) private @interface DeviceType {} /** * The default receiver device type of the route indicating the type is unknown. * * @see #getDeviceType * @hide */ public static final int DEVICE_TYPE_UNKNOWN = 0; /** * A receiver device type of the route indicating the presentation of the media is happening * on a TV. * * @see #getDeviceType */ public static final int DEVICE_TYPE_TV = 1; /** * A receiver device type of the route indicating the presentation of the media is happening * on a speaker. * * @see #getDeviceType */ public static final int DEVICE_TYPE_SPEAKER = 2; /** * A receiver device type of the route indicating the presentation of the media is happening * on a bluetooth device such as a bluetooth speaker. * * @see #getDeviceType * @hide */ public static final int DEVICE_TYPE_BLUETOOTH = 3; /** @hide */ @IntDef({PLAYBACK_VOLUME_FIXED,PLAYBACK_VOLUME_VARIABLE}) @Retention(RetentionPolicy.SOURCE) private @interface PlaybackVolume {} /** * Playback information indicating the playback volume is fixed, i.e. it cannot be * controlled from this object. An example of fixed playback volume is a remote player, * playing over HDMI where the user prefers to control the volume on the HDMI sink, rather * than attenuate at the source. * * @see #getVolumeHandling */ public static final int PLAYBACK_VOLUME_FIXED = 0; /** * Playback information indicating the playback volume is variable and can be controlled * from this object. * * @see #getVolumeHandling */ public static final int PLAYBACK_VOLUME_VARIABLE = 1; /** * The default presentation display id indicating no presentation display is associated * with the route. * @hide */ public static final int PRESENTATION_DISPLAY_ID_NONE = -1; static final int CHANGE_GENERAL = 1 << 0; static final int CHANGE_VOLUME = 1 << 1; static final int CHANGE_PRESENTATION_DISPLAY = 1 << 2; // Should match to SystemMediaRouteProvider.PACKAGE_NAME. static final String SYSTEM_MEDIA_ROUTE_PROVIDER_PACKAGE_NAME = "android"; RouteInfo(ProviderInfo provider, String descriptorId, String uniqueId) { mProvider = provider; mDescriptorId = descriptorId; mUniqueId = uniqueId; } /** * Gets information about the provider of this media route. */ public ProviderInfo getProvider() { return mProvider; } /** * Gets the unique id of the route. *

* The route unique id functions as a stable identifier by which the route is known. * For example, an application can use this id as a token to remember the * selected route across restarts or to communicate its identity to a service. *

* * @return The unique id of the route, never null. */ @NonNull public String getId() { return mUniqueId; } /** * Gets the user-visible name of the route. *

* The route name identifies the destination represented by the route. * It may be a user-supplied name, an alias, or device serial number. *

* * @return The user-visible name of a media route. This is the string presented * to users who may select this as the active route. */ public String getName() { return mName; } /** * Gets the user-visible description of the route. *

* The route description describes the kind of destination represented by the route. * It may be a user-supplied string, a model number or brand of device. *

* * @return The description of the route, or null if none. */ @Nullable public String getDescription() { return mDescription; } /** * Gets the URI of the icon representing this route. *

* This icon will be used in picker UIs if available. *

* * @return The URI of the icon representing this route, or null if none. */ public Uri getIconUri() { return mIconUri; } /** * Returns true if this route is enabled and may be selected. * * @return True if this route is enabled. */ public boolean isEnabled() { return mEnabled; } /** * Returns true if the route is in the process of connecting and is not * yet ready for use. * * @return True if this route is in the process of connecting. */ public boolean isConnecting() { return mConnecting; } /** * Gets the connection state of the route. * * @return The connection state of this route: {@link #CONNECTION_STATE_DISCONNECTED}, * {@link #CONNECTION_STATE_CONNECTING}, or {@link #CONNECTION_STATE_CONNECTED}. */ @ConnectionState public int getConnectionState() { return mConnectionState; } /** * Returns true if this route is currently selected. * * @return True if this route is currently selected. * * @see MediaRouter#getSelectedRoute */ public boolean isSelected() { checkCallingThread(); return sGlobal.getSelectedRoute() == this; } /** * Returns true if this route is the default route. * * @return True if this route is the default route. * * @see MediaRouter#getDefaultRoute */ public boolean isDefault() { checkCallingThread(); return sGlobal.getDefaultRoute() == this; } /** * Gets a list of {@link MediaControlIntent media control intent} filters that * describe the capabilities of this route and the media control actions that * it supports. * * @return A list of intent filters that specifies the media control intents that * this route supports. * * @see MediaControlIntent * @see #supportsControlCategory * @see #supportsControlRequest */ public List getControlFilters() { return mControlFilters; } /** * Returns true if the route supports at least one of the capabilities * described by a media route selector. * * @param selector The selector that specifies the capabilities to check. * @return True if the route supports at least one of the capabilities * described in the media route selector. */ public boolean matchesSelector(@NonNull MediaRouteSelector selector) { if (selector == null) { throw new IllegalArgumentException("selector must not be null"); } checkCallingThread(); return selector.matchesControlFilters(mControlFilters); } /** * Returns true if the route supports the specified * {@link MediaControlIntent media control} category. *

* Media control categories describe the capabilities of this route * such as whether it supports live audio streaming or remote playback. *

* * @param category A {@link MediaControlIntent media control} category * such as {@link MediaControlIntent#CATEGORY_LIVE_AUDIO}, * {@link MediaControlIntent#CATEGORY_LIVE_VIDEO}, * {@link MediaControlIntent#CATEGORY_REMOTE_PLAYBACK}, or a provider-defined * media control category. * @return True if the route supports the specified intent category. * * @see MediaControlIntent * @see #getControlFilters */ public boolean supportsControlCategory(@NonNull String category) { if (category == null) { throw new IllegalArgumentException("category must not be null"); } checkCallingThread(); int count = mControlFilters.size(); for (int i = 0; i < count; i++) { if (mControlFilters.get(i).hasCategory(category)) { return true; } } return false; } /** * Returns true if the route supports the specified * {@link MediaControlIntent media control} category and action. *

* Media control actions describe specific requests that an application * can ask a route to perform. *

* * @param category A {@link MediaControlIntent media control} category * such as {@link MediaControlIntent#CATEGORY_LIVE_AUDIO}, * {@link MediaControlIntent#CATEGORY_LIVE_VIDEO}, * {@link MediaControlIntent#CATEGORY_REMOTE_PLAYBACK}, or a provider-defined * media control category. * @param action A {@link MediaControlIntent media control} action * such as {@link MediaControlIntent#ACTION_PLAY}. * @return True if the route supports the specified intent action. * * @see MediaControlIntent * @see #getControlFilters */ public boolean supportsControlAction(@NonNull String category, @NonNull String action) { if (category == null) { throw new IllegalArgumentException("category must not be null"); } if (action == null) { throw new IllegalArgumentException("action must not be null"); } checkCallingThread(); int count = mControlFilters.size(); for (int i = 0; i < count; i++) { IntentFilter filter = mControlFilters.get(i); if (filter.hasCategory(category) && filter.hasAction(action)) { return true; } } return false; } /** * Returns true if the route supports the specified * {@link MediaControlIntent media control} request. *

* Media control requests are used to request the route to perform * actions such as starting remote playback of a media item. *

* * @param intent A {@link MediaControlIntent media control intent}. * @return True if the route can handle the specified intent. * * @see MediaControlIntent * @see #getControlFilters */ public boolean supportsControlRequest(@NonNull Intent intent) { if (intent == null) { throw new IllegalArgumentException("intent must not be null"); } checkCallingThread(); ContentResolver contentResolver = sGlobal.getContentResolver(); int count = mControlFilters.size(); for (int i = 0; i < count; i++) { if (mControlFilters.get(i).match(contentResolver, intent, true, TAG) >= 0) { return true; } } return false; } /** * Sends a {@link MediaControlIntent media control} request to be performed * asynchronously by the route's destination. *

* Media control requests are used to request the route to perform * actions such as starting remote playback of a media item. *

* This function may only be called on a selected route. Control requests * sent to unselected routes will fail. *

* * @param intent A {@link MediaControlIntent media control intent}. * @param callback A {@link ControlRequestCallback} to invoke with the result * of the request, or null if no result is required. * * @see MediaControlIntent */ public void sendControlRequest(@NonNull Intent intent, @Nullable ControlRequestCallback callback) { if (intent == null) { throw new IllegalArgumentException("intent must not be null"); } checkCallingThread(); sGlobal.sendControlRequest(this, intent, callback); } /** * Gets the type of playback associated with this route. * * @return The type of playback associated with this route: {@link #PLAYBACK_TYPE_LOCAL} * or {@link #PLAYBACK_TYPE_REMOTE}. */ @PlaybackType public int getPlaybackType() { return mPlaybackType; } /** * Gets the audio stream over which the playback associated with this route is performed. * * @return The stream over which the playback associated with this route is performed. */ public int getPlaybackStream() { return mPlaybackStream; } /** * Gets the type of the receiver device associated with this route. * * @return The type of the receiver device associated with this route: * {@link #DEVICE_TYPE_TV} or {@link #DEVICE_TYPE_SPEAKER}. */ public int getDeviceType() { return mDeviceType; } /** * @hide */ public boolean isDefaultOrBluetooth() { if (isDefault() || mDeviceType == DEVICE_TYPE_BLUETOOTH) { return true; } // This is a workaround for platform version 23 or below where the system route // provider doesn't specify device type for bluetooth media routes. return isSystemMediaRouteProvider(this) && supportsControlCategory(MediaControlIntent.CATEGORY_LIVE_AUDIO) && !supportsControlCategory(MediaControlIntent.CATEGORY_LIVE_VIDEO); } private static boolean isSystemMediaRouteProvider(MediaRouter.RouteInfo route) { return TextUtils.equals(route.getProviderInstance().getMetadata().getPackageName(), SYSTEM_MEDIA_ROUTE_PROVIDER_PACKAGE_NAME); } /** * Gets information about how volume is handled on the route. * * @return How volume is handled on the route: {@link #PLAYBACK_VOLUME_FIXED} * or {@link #PLAYBACK_VOLUME_VARIABLE}. */ @PlaybackVolume public int getVolumeHandling() { return mVolumeHandling; } /** * Gets the current volume for this route. Depending on the route, this may only * be valid if the route is currently selected. * * @return The volume at which the playback associated with this route is performed. */ public int getVolume() { return mVolume; } /** * Gets the maximum volume at which the playback associated with this route is performed. * * @return The maximum volume at which the playback associated with * this route is performed. */ public int getVolumeMax() { return mVolumeMax; } /** * Gets whether this route supports disconnecting without interrupting * playback. * * @return True if this route can disconnect without stopping playback, * false otherwise. */ public boolean canDisconnect() { return mCanDisconnect; } /** * Requests a volume change for this route asynchronously. *

* This function may only be called on a selected route. It will have * no effect if the route is currently unselected. *

* * @param volume The new volume value between 0 and {@link #getVolumeMax}. */ public void requestSetVolume(int volume) { checkCallingThread(); sGlobal.requestSetVolume(this, Math.min(mVolumeMax, Math.max(0, volume))); } /** * Requests an incremental volume update for this route asynchronously. *

* This function may only be called on a selected route. It will have * no effect if the route is currently unselected. *

* * @param delta The delta to add to the current volume. */ public void requestUpdateVolume(int delta) { checkCallingThread(); if (delta != 0) { sGlobal.requestUpdateVolume(this, delta); } } /** * Gets the {@link Display} that should be used by the application to show * a {@link android.app.Presentation} on an external display when this route is selected. * Depending on the route, this may only be valid if the route is currently * selected. *

* The preferred presentation display may change independently of the route * being selected or unselected. For example, the presentation display * of the default system route may change when an external HDMI display is connected * or disconnected even though the route itself has not changed. *

* This method may return null if there is no external display associated with * the route or if the display is not ready to show UI yet. *

* The application should listen for changes to the presentation display * using the {@link Callback#onRoutePresentationDisplayChanged} callback and * show or dismiss its {@link android.app.Presentation} accordingly when the display * becomes available or is removed. *

* This method only makes sense for * {@link MediaControlIntent#CATEGORY_LIVE_VIDEO live video} routes. *

* * @return The preferred presentation display to use when this route is * selected or null if none. * * @see MediaControlIntent#CATEGORY_LIVE_VIDEO * @see android.app.Presentation */ @Nullable public Display getPresentationDisplay() { checkCallingThread(); if (mPresentationDisplayId >= 0 && mPresentationDisplay == null) { mPresentationDisplay = sGlobal.getDisplay(mPresentationDisplayId); } return mPresentationDisplay; } /** * Gets the route's presentation display id, or -1 if none. * @hide */ public int getPresentationDisplayId() { return mPresentationDisplayId; } /** * Gets a collection of extra properties about this route that were supplied * by its media route provider, or null if none. */ @Nullable public Bundle getExtras() { return mExtras; } /** * Gets an intent sender for launching a settings activity for this * route. */ @Nullable public IntentSender getSettingsIntent() { return mSettingsIntent; } /** * Selects this media route. */ public void select() { checkCallingThread(); sGlobal.selectRoute(this); } @Override public String toString() { return "MediaRouter.RouteInfo{ uniqueId=" + mUniqueId + ", name=" + mName + ", description=" + mDescription + ", iconUri=" + mIconUri + ", enabled=" + mEnabled + ", connecting=" + mConnecting + ", connectionState=" + mConnectionState + ", canDisconnect=" + mCanDisconnect + ", playbackType=" + mPlaybackType + ", playbackStream=" + mPlaybackStream + ", deviceType=" + mDeviceType + ", volumeHandling=" + mVolumeHandling + ", volume=" + mVolume + ", volumeMax=" + mVolumeMax + ", presentationDisplayId=" + mPresentationDisplayId + ", extras=" + mExtras + ", settingsIntent=" + mSettingsIntent + ", providerPackageName=" + mProvider.getPackageName() + " }"; } int maybeUpdateDescriptor(MediaRouteDescriptor descriptor) { int changes = 0; if (mDescriptor != descriptor) { changes = updateDescriptor(descriptor); } return changes; } int updateDescriptor(MediaRouteDescriptor descriptor) { int changes = 0; mDescriptor = descriptor; if (descriptor != null) { if (!equal(mName, descriptor.getName())) { mName = descriptor.getName(); changes |= CHANGE_GENERAL; } if (!equal(mDescription, descriptor.getDescription())) { mDescription = descriptor.getDescription(); changes |= CHANGE_GENERAL; } if (!equal(mIconUri, descriptor.getIconUri())) { mIconUri = descriptor.getIconUri(); changes |= CHANGE_GENERAL; } if (mEnabled != descriptor.isEnabled()) { mEnabled = descriptor.isEnabled(); changes |= CHANGE_GENERAL; } if (mConnecting != descriptor.isConnecting()) { mConnecting = descriptor.isConnecting(); changes |= CHANGE_GENERAL; } if (mConnectionState != descriptor.getConnectionState()) { mConnectionState = descriptor.getConnectionState(); changes |= CHANGE_GENERAL; } if (!mControlFilters.equals(descriptor.getControlFilters())) { mControlFilters.clear(); mControlFilters.addAll(descriptor.getControlFilters()); changes |= CHANGE_GENERAL; } if (mPlaybackType != descriptor.getPlaybackType()) { mPlaybackType = descriptor.getPlaybackType(); changes |= CHANGE_GENERAL; } if (mPlaybackStream != descriptor.getPlaybackStream()) { mPlaybackStream = descriptor.getPlaybackStream(); changes |= CHANGE_GENERAL; } if (mDeviceType != descriptor.getDeviceType()) { mDeviceType = descriptor.getDeviceType(); changes |= CHANGE_GENERAL; } if (mVolumeHandling != descriptor.getVolumeHandling()) { mVolumeHandling = descriptor.getVolumeHandling(); changes |= CHANGE_GENERAL | CHANGE_VOLUME; } if (mVolume != descriptor.getVolume()) { mVolume = descriptor.getVolume(); changes |= CHANGE_GENERAL | CHANGE_VOLUME; } if (mVolumeMax != descriptor.getVolumeMax()) { mVolumeMax = descriptor.getVolumeMax(); changes |= CHANGE_GENERAL | CHANGE_VOLUME; } if (mPresentationDisplayId != descriptor.getPresentationDisplayId()) { mPresentationDisplayId = descriptor.getPresentationDisplayId(); mPresentationDisplay = null; changes |= CHANGE_GENERAL | CHANGE_PRESENTATION_DISPLAY; } if (!equal(mExtras, descriptor.getExtras())) { mExtras = descriptor.getExtras(); changes |= CHANGE_GENERAL; } if (!equal(mSettingsIntent, descriptor.getSettingsActivity())) { mSettingsIntent = descriptor.getSettingsActivity(); changes |= CHANGE_GENERAL; } if (mCanDisconnect != descriptor.canDisconnectAndKeepPlaying()) { mCanDisconnect = descriptor.canDisconnectAndKeepPlaying(); changes |= CHANGE_GENERAL | CHANGE_PRESENTATION_DISPLAY; } } return changes; } String getDescriptorId() { return mDescriptorId; } /** @hide */ public MediaRouteProvider getProviderInstance() { return mProvider.getProviderInstance(); } } /** * Information about a route that consists of multiple other routes in a group. * @hide */ public static class RouteGroup extends RouteInfo { private List mRoutes = new ArrayList<>(); RouteGroup(ProviderInfo provider, String descriptorId, String uniqueId) { super(provider, descriptorId, uniqueId); } /** * @return The number of routes in this group */ public int getRouteCount() { return mRoutes.size(); } /** * Returns the route in this group at the specified index * * @param index Index to fetch * @return The route at index */ public RouteInfo getRouteAt(int index) { return mRoutes.get(index); } /** * Returns the routes in this group * * @return The list of the routes in this group */ public List getRoutes() { return mRoutes; } @Override public String toString() { StringBuilder sb = new StringBuilder(super.toString()); sb.append('['); final int count = mRoutes.size(); for (int i = 0; i < count; i++) { if (i > 0) sb.append(", "); sb.append(mRoutes.get(i)); } sb.append(']'); return sb.toString(); } @Override int maybeUpdateDescriptor(MediaRouteDescriptor descriptor) { boolean changed = false; if (mDescriptor != descriptor) { mDescriptor = descriptor; if (descriptor != null) { List groupMemberIds = descriptor.getGroupMemberIds(); List routes = new ArrayList<>(); changed = groupMemberIds.size() != mRoutes.size(); for (String groupMemberId : groupMemberIds) { String uniqueId = sGlobal.getUniqueId(getProvider(), groupMemberId); RouteInfo groupMember = sGlobal.getRoute(uniqueId); if (groupMember != null) { routes.add(groupMember); if (!changed && !mRoutes.contains(groupMember)) { changed = true; } } } if (changed) { mRoutes = routes; } } } return (changed ? CHANGE_GENERAL : 0) | super.updateDescriptor(descriptor); } } /** * Provides information about a media route provider. *

* This object may be used to determine which media route provider has * published a particular route. *

*/ public static final class ProviderInfo { private final MediaRouteProvider mProviderInstance; private final List mRoutes = new ArrayList<>(); private final ProviderMetadata mMetadata; private MediaRouteProviderDescriptor mDescriptor; private Resources mResources; private boolean mResourcesNotAvailable; ProviderInfo(MediaRouteProvider provider) { mProviderInstance = provider; mMetadata = provider.getMetadata(); } /** * Gets the provider's underlying {@link MediaRouteProvider} instance. */ public MediaRouteProvider getProviderInstance() { checkCallingThread(); return mProviderInstance; } /** * Gets the package name of the media route provider. */ public String getPackageName() { return mMetadata.getPackageName(); } /** * Gets the component name of the media route provider. */ public ComponentName getComponentName() { return mMetadata.getComponentName(); } /** * Gets the {@link MediaRouter.RouteInfo routes} published by this route provider. */ public List getRoutes() { checkCallingThread(); return mRoutes; } Resources getResources() { if (mResources == null && !mResourcesNotAvailable) { String packageName = getPackageName(); Context context = sGlobal.getProviderContext(packageName); if (context != null) { mResources = context.getResources(); } else { Log.w(TAG, "Unable to obtain resources for route provider package: " + packageName); mResourcesNotAvailable = true; } } return mResources; } boolean updateDescriptor(MediaRouteProviderDescriptor descriptor) { if (mDescriptor != descriptor) { mDescriptor = descriptor; return true; } return false; } int findRouteByDescriptorId(String id) { final int count = mRoutes.size(); for (int i = 0; i < count; i++) { if (mRoutes.get(i).mDescriptorId.equals(id)) { return i; } } return -1; } @Override public String toString() { return "MediaRouter.RouteProviderInfo{ packageName=" + getPackageName() + " }"; } } /** * Interface for receiving events about media routing changes. * All methods of this interface will be called from the application's main thread. *

* A Callback will only receive events relevant to routes that the callback * was registered for unless the {@link MediaRouter#CALLBACK_FLAG_UNFILTERED_EVENTS} * flag was specified in {@link MediaRouter#addCallback(MediaRouteSelector, Callback, int)}. *

* * @see MediaRouter#addCallback(MediaRouteSelector, Callback, int) * @see MediaRouter#removeCallback(Callback) */ public static abstract class Callback { /** * Called when the supplied media route becomes selected as the active route. * * @param router The media router reporting the event. * @param route The route that has been selected. */ public void onRouteSelected(MediaRouter router, RouteInfo route) { } /** * Called when the supplied media route becomes unselected as the active route. * For detailed reason, override {@link #onRouteUnselected(MediaRouter, RouteInfo, int)} * instead. * * @param router The media router reporting the event. * @param route The route that has been unselected. */ public void onRouteUnselected(MediaRouter router, RouteInfo route) { } /** * Called when the supplied media route becomes unselected as the active route. * The default implementation calls {@link #onRouteUnselected}. *

* The reason provided will be one of the following: *

    *
  • {@link MediaRouter#UNSELECT_REASON_UNKNOWN}
  • *
  • {@link MediaRouter#UNSELECT_REASON_DISCONNECTED}
  • *
  • {@link MediaRouter#UNSELECT_REASON_STOPPED}
  • *
  • {@link MediaRouter#UNSELECT_REASON_ROUTE_CHANGED}
  • *
* * @param router The media router reporting the event. * @param route The route that has been unselected. * @param reason The reason for unselecting the route. */ public void onRouteUnselected(MediaRouter router, RouteInfo route, int reason) { onRouteUnselected(router, route); } /** * Called when a media route has been added. * * @param router The media router reporting the event. * @param route The route that has become available for use. */ public void onRouteAdded(MediaRouter router, RouteInfo route) { } /** * Called when a media route has been removed. * * @param router The media router reporting the event. * @param route The route that has been removed from availability. */ public void onRouteRemoved(MediaRouter router, RouteInfo route) { } /** * Called when a property of the indicated media route has changed. * * @param router The media router reporting the event. * @param route The route that was changed. */ public void onRouteChanged(MediaRouter router, RouteInfo route) { } /** * Called when a media route's volume changes. * * @param router The media router reporting the event. * @param route The route whose volume changed. */ public void onRouteVolumeChanged(MediaRouter router, RouteInfo route) { } /** * Called when a media route's presentation display changes. *

* This method is called whenever the route's presentation display becomes * available, is removed or has changes to some of its properties (such as its size). *

* * @param router The media router reporting the event. * @param route The route whose presentation display changed. * * @see RouteInfo#getPresentationDisplay() */ public void onRoutePresentationDisplayChanged(MediaRouter router, RouteInfo route) { } /** * Called when a media route provider has been added. * * @param router The media router reporting the event. * @param provider The provider that has become available for use. */ public void onProviderAdded(MediaRouter router, ProviderInfo provider) { } /** * Called when a media route provider has been removed. * * @param router The media router reporting the event. * @param provider The provider that has been removed from availability. */ public void onProviderRemoved(MediaRouter router, ProviderInfo provider) { } /** * Called when a property of the indicated media route provider has changed. * * @param router The media router reporting the event. * @param provider The provider that was changed. */ public void onProviderChanged(MediaRouter router, ProviderInfo provider) { } } /** * Callback which is invoked with the result of a media control request. * * @see RouteInfo#sendControlRequest */ public static abstract class ControlRequestCallback { /** * Called when a media control request succeeds. * * @param data Result data, or null if none. * Contents depend on the {@link MediaControlIntent media control action}. */ public void onResult(Bundle data) { } /** * Called when a media control request fails. * * @param error A localized error message which may be shown to the user, or null * if the cause of the error is unclear. * @param data Error data, or null if none. * Contents depend on the {@link MediaControlIntent media control action}. */ public void onError(String error, Bundle data) { } } private static final class CallbackRecord { public final MediaRouter mRouter; public final Callback mCallback; public MediaRouteSelector mSelector; public int mFlags; public CallbackRecord(MediaRouter router, Callback callback) { mRouter = router; mCallback = callback; mSelector = MediaRouteSelector.EMPTY; } public boolean filterRouteEvent(RouteInfo route) { return (mFlags & CALLBACK_FLAG_UNFILTERED_EVENTS) != 0 || route.matchesSelector(mSelector); } } /** * Global state for the media router. *

* Media routes and media route providers are global to the process; their * state and the bulk of the media router implementation lives here. *

*/ private static final class GlobalMediaRouter implements SystemMediaRouteProvider.SyncCallback, RegisteredMediaRouteProviderWatcher.Callback { private final Context mApplicationContext; private final ArrayList> mRouters = new ArrayList<>(); private final ArrayList mRoutes = new ArrayList<>(); private final Map, String> mUniqueIdMap = new HashMap<>(); private final ArrayList mProviders = new ArrayList<>(); private final ArrayList mRemoteControlClients = new ArrayList<>(); private final RemoteControlClientCompat.PlaybackInfo mPlaybackInfo = new RemoteControlClientCompat.PlaybackInfo(); private final ProviderCallback mProviderCallback = new ProviderCallback(); private final CallbackHandler mCallbackHandler = new CallbackHandler(); private final DisplayManagerCompat mDisplayManager; private final SystemMediaRouteProvider mSystemProvider; private final boolean mLowRam; private RegisteredMediaRouteProviderWatcher mRegisteredProviderWatcher; private RouteInfo mDefaultRoute; private RouteInfo mSelectedRoute; private RouteController mSelectedRouteController; // A map from route descriptor ID to RouteController for the member routes in the currently // selected route group. private final Map mRouteControllerMap = new HashMap<>(); private MediaRouteDiscoveryRequest mDiscoveryRequest; private MediaSessionRecord mMediaSession; private MediaSessionCompat mRccMediaSession; private MediaSessionCompat mCompatSession; private MediaSessionCompat.OnActiveChangeListener mSessionActiveListener = new MediaSessionCompat.OnActiveChangeListener() { @Override public void onActiveChanged() { if(mRccMediaSession != null) { if (mRccMediaSession.isActive()) { addRemoteControlClient(mRccMediaSession.getRemoteControlClient()); } else { removeRemoteControlClient(mRccMediaSession.getRemoteControlClient()); } } } }; GlobalMediaRouter(Context applicationContext) { mApplicationContext = applicationContext; mDisplayManager = DisplayManagerCompat.getInstance(applicationContext); mLowRam = ActivityManagerCompat.isLowRamDevice( (ActivityManager)applicationContext.getSystemService( Context.ACTIVITY_SERVICE)); // Add the system media route provider for interoperating with // the framework media router. This one is special and receives // synchronization messages from the media router. mSystemProvider = SystemMediaRouteProvider.obtain(applicationContext, this); addProvider(mSystemProvider); } public void start() { // Start watching for routes published by registered media route // provider services. mRegisteredProviderWatcher = new RegisteredMediaRouteProviderWatcher( mApplicationContext, this); mRegisteredProviderWatcher.start(); } public MediaRouter getRouter(Context context) { MediaRouter router; for (int i = mRouters.size(); --i >= 0; ) { router = mRouters.get(i).get(); if (router == null) { mRouters.remove(i); } else if (router.mContext == context) { return router; } } router = new MediaRouter(context); mRouters.add(new WeakReference(router)); return router; } public ContentResolver getContentResolver() { return mApplicationContext.getContentResolver(); } public Context getProviderContext(String packageName) { if (packageName.equals(SystemMediaRouteProvider.PACKAGE_NAME)) { return mApplicationContext; } try { return mApplicationContext.createPackageContext( packageName, Context.CONTEXT_RESTRICTED); } catch (NameNotFoundException ex) { return null; } } public Display getDisplay(int displayId) { return mDisplayManager.getDisplay(displayId); } public void sendControlRequest(RouteInfo route, Intent intent, ControlRequestCallback callback) { if (route == mSelectedRoute && mSelectedRouteController != null) { if (mSelectedRouteController.onControlRequest(intent, callback)) { return; } } if (callback != null) { callback.onError(null, null); } } public void requestSetVolume(RouteInfo route, int volume) { if (route == mSelectedRoute && mSelectedRouteController != null) { mSelectedRouteController.onSetVolume(volume); } else if (!mRouteControllerMap.isEmpty()) { RouteController controller = mRouteControllerMap.get(route.mDescriptorId); if (controller != null) { controller.onSetVolume(volume); } } } public void requestUpdateVolume(RouteInfo route, int delta) { if (route == mSelectedRoute && mSelectedRouteController != null) { mSelectedRouteController.onUpdateVolume(delta); } } public RouteInfo getRoute(String uniqueId) { for (RouteInfo info : mRoutes) { if (info.mUniqueId.equals(uniqueId)) { return info; } } return null; } public List getRoutes() { return mRoutes; } public List getProviders() { return mProviders; } public RouteInfo getDefaultRoute() { if (mDefaultRoute == null) { // This should never happen once the media router has been fully // initialized but it is good to check for the error in case there // is a bug in provider initialization. throw new IllegalStateException("There is no default route. " + "The media router has not yet been fully initialized."); } return mDefaultRoute; } public RouteInfo getSelectedRoute() { if (mSelectedRoute == null) { // This should never happen once the media router has been fully // initialized but it is good to check for the error in case there // is a bug in provider initialization. throw new IllegalStateException("There is no currently selected route. " + "The media router has not yet been fully initialized."); } return mSelectedRoute; } public void selectRoute(RouteInfo route) { selectRoute(route, MediaRouter.UNSELECT_REASON_ROUTE_CHANGED); } public void selectRoute(RouteInfo route, int unselectReason) { if (!mRoutes.contains(route)) { Log.w(TAG, "Ignoring attempt to select removed route: " + route); return; } if (!route.mEnabled) { Log.w(TAG, "Ignoring attempt to select disabled route: " + route); return; } setSelectedRouteInternal(route, unselectReason); } public boolean isRouteAvailable(MediaRouteSelector selector, int flags) { if (selector.isEmpty()) { return false; } // On low-RAM devices, do not rely on actual discovery results unless asked to. if ((flags & AVAILABILITY_FLAG_REQUIRE_MATCH) == 0 && mLowRam) { return true; } // Check whether any existing routes match the selector. final int routeCount = mRoutes.size(); for (int i = 0; i < routeCount; i++) { RouteInfo route = mRoutes.get(i); if ((flags & AVAILABILITY_FLAG_IGNORE_DEFAULT_ROUTE) != 0 && route.isDefaultOrBluetooth()) { continue; } if (route.matchesSelector(selector)) { return true; } } // It doesn't look like we can find a matching route right now. return false; } public void updateDiscoveryRequest() { // Combine all of the callback selectors and active scan flags. boolean discover = false; boolean activeScan = false; MediaRouteSelector.Builder builder = new MediaRouteSelector.Builder(); for (int i = mRouters.size(); --i >= 0; ) { MediaRouter router = mRouters.get(i).get(); if (router == null) { mRouters.remove(i); } else { final int count = router.mCallbackRecords.size(); for (int j = 0; j < count; j++) { CallbackRecord callback = router.mCallbackRecords.get(j); builder.addSelector(callback.mSelector); if ((callback.mFlags & CALLBACK_FLAG_PERFORM_ACTIVE_SCAN) != 0) { activeScan = true; discover = true; // perform active scan implies request discovery } if ((callback.mFlags & CALLBACK_FLAG_REQUEST_DISCOVERY) != 0) { if (!mLowRam) { discover = true; } } if ((callback.mFlags & CALLBACK_FLAG_FORCE_DISCOVERY) != 0) { discover = true; } } } } MediaRouteSelector selector = discover ? builder.build() : MediaRouteSelector.EMPTY; // Create a new discovery request. if (mDiscoveryRequest != null && mDiscoveryRequest.getSelector().equals(selector) && mDiscoveryRequest.isActiveScan() == activeScan) { return; // no change } if (selector.isEmpty() && !activeScan) { // Discovery is not needed. if (mDiscoveryRequest == null) { return; // no change } mDiscoveryRequest = null; } else { // Discovery is needed. mDiscoveryRequest = new MediaRouteDiscoveryRequest(selector, activeScan); } if (DEBUG) { Log.d(TAG, "Updated discovery request: " + mDiscoveryRequest); } if (discover && !activeScan && mLowRam) { Log.i(TAG, "Forcing passive route discovery on a low-RAM device, " + "system performance may be affected. Please consider using " + "CALLBACK_FLAG_REQUEST_DISCOVERY instead of " + "CALLBACK_FLAG_FORCE_DISCOVERY."); } // Notify providers. final int providerCount = mProviders.size(); for (int i = 0; i < providerCount; i++) { mProviders.get(i).mProviderInstance.setDiscoveryRequest(mDiscoveryRequest); } } @Override public void addProvider(MediaRouteProvider providerInstance) { int index = findProviderInfo(providerInstance); if (index < 0) { // 1. Add the provider to the list. ProviderInfo provider = new ProviderInfo(providerInstance); mProviders.add(provider); if (DEBUG) { Log.d(TAG, "Provider added: " + provider); } mCallbackHandler.post(CallbackHandler.MSG_PROVIDER_ADDED, provider); // 2. Create the provider's contents. updateProviderContents(provider, providerInstance.getDescriptor()); // 3. Register the provider callback. providerInstance.setCallback(mProviderCallback); // 4. Set the discovery request. providerInstance.setDiscoveryRequest(mDiscoveryRequest); } } @Override public void removeProvider(MediaRouteProvider providerInstance) { int index = findProviderInfo(providerInstance); if (index >= 0) { // 1. Unregister the provider callback. providerInstance.setCallback(null); // 2. Clear the discovery request. providerInstance.setDiscoveryRequest(null); // 3. Delete the provider's contents. ProviderInfo provider = mProviders.get(index); updateProviderContents(provider, null); // 4. Remove the provider from the list. if (DEBUG) { Log.d(TAG, "Provider removed: " + provider); } mCallbackHandler.post(CallbackHandler.MSG_PROVIDER_REMOVED, provider); mProviders.remove(index); } } private void updateProviderDescriptor(MediaRouteProvider providerInstance, MediaRouteProviderDescriptor descriptor) { int index = findProviderInfo(providerInstance); if (index >= 0) { // Update the provider's contents. ProviderInfo provider = mProviders.get(index); updateProviderContents(provider, descriptor); } } private int findProviderInfo(MediaRouteProvider providerInstance) { final int count = mProviders.size(); for (int i = 0; i < count; i++) { if (mProviders.get(i).mProviderInstance == providerInstance) { return i; } } return -1; } private void updateProviderContents(ProviderInfo provider, MediaRouteProviderDescriptor providerDescriptor) { if (provider.updateDescriptor(providerDescriptor)) { // Update all existing routes and reorder them to match // the order of their descriptors. int targetIndex = 0; boolean selectedRouteDescriptorChanged = false; if (providerDescriptor != null) { if (providerDescriptor.isValid()) { final List routeDescriptors = providerDescriptor.getRoutes(); final int routeCount = routeDescriptors.size(); // Updating route group's contents requires all member routes' information. // Add the groups to the lists and update them later. List> addedGroups = new ArrayList<>(); List> updatedGroups = new ArrayList<>(); for (int i = 0; i < routeCount; i++) { final MediaRouteDescriptor routeDescriptor = routeDescriptors.get(i); final String id = routeDescriptor.getId(); final int sourceIndex = provider.findRouteByDescriptorId(id); if (sourceIndex < 0) { // 1. Add the route to the list. String uniqueId = assignRouteUniqueId(provider, id); boolean isGroup = routeDescriptor.getGroupMemberIds() != null; RouteInfo route = isGroup ? new RouteGroup(provider, id, uniqueId) : new RouteInfo(provider, id, uniqueId); provider.mRoutes.add(targetIndex++, route); mRoutes.add(route); // 2. Create the route's contents. if (isGroup) { addedGroups.add(new Pair(route, routeDescriptor)); } else { route.maybeUpdateDescriptor(routeDescriptor); // 3. Notify clients about addition. if (DEBUG) { Log.d(TAG, "Route added: " + route); } mCallbackHandler.post(CallbackHandler.MSG_ROUTE_ADDED, route); } } else if (sourceIndex < targetIndex) { Log.w(TAG, "Ignoring route descriptor with duplicate id: " + routeDescriptor); } else { // 1. Reorder the route within the list. RouteInfo route = provider.mRoutes.get(sourceIndex); Collections.swap(provider.mRoutes, sourceIndex, targetIndex++); // 2. Update the route's contents. if (route instanceof RouteGroup) { updatedGroups.add(new Pair(route, routeDescriptor)); } else { // 3. Notify clients about changes. if (updateRouteDescriptorAndNotify(route, routeDescriptor) != 0) { if (route == mSelectedRoute) { selectedRouteDescriptorChanged = true; } } } } } // Update the new and/or existing groups. for (Pair pair : addedGroups) { RouteInfo route = pair.first; route.maybeUpdateDescriptor(pair.second); if (DEBUG) { Log.d(TAG, "Route added: " + route); } mCallbackHandler.post(CallbackHandler.MSG_ROUTE_ADDED, route); } for (Pair pair : updatedGroups) { RouteInfo route = pair.first; if (updateRouteDescriptorAndNotify(route, pair.second) != 0) { if (route == mSelectedRoute) { selectedRouteDescriptorChanged = true; } } } } else { Log.w(TAG, "Ignoring invalid provider descriptor: " + providerDescriptor); } } // Dispose all remaining routes that do not have matching descriptors. for (int i = provider.mRoutes.size() - 1; i >= targetIndex; i--) { // 1. Delete the route's contents. RouteInfo route = provider.mRoutes.get(i); route.maybeUpdateDescriptor(null); // 2. Remove the route from the list. mRoutes.remove(route); } // Update the selected route if needed. updateSelectedRouteIfNeeded(selectedRouteDescriptorChanged); // Now notify clients about routes that were removed. // We do this after updating the selected route to ensure // that the framework media router observes the new route // selection before the removal since removing the currently // selected route may have side-effects. for (int i = provider.mRoutes.size() - 1; i >= targetIndex; i--) { RouteInfo route = provider.mRoutes.remove(i); if (DEBUG) { Log.d(TAG, "Route removed: " + route); } mCallbackHandler.post(CallbackHandler.MSG_ROUTE_REMOVED, route); } // Notify provider changed. if (DEBUG) { Log.d(TAG, "Provider changed: " + provider); } mCallbackHandler.post(CallbackHandler.MSG_PROVIDER_CHANGED, provider); } } private int updateRouteDescriptorAndNotify(RouteInfo route, MediaRouteDescriptor routeDescriptor) { int changes = route.maybeUpdateDescriptor(routeDescriptor); if (changes != 0) { if ((changes & RouteInfo.CHANGE_GENERAL) != 0) { if (DEBUG) { Log.d(TAG, "Route changed: " + route); } mCallbackHandler.post( CallbackHandler.MSG_ROUTE_CHANGED, route); } if ((changes & RouteInfo.CHANGE_VOLUME) != 0) { if (DEBUG) { Log.d(TAG, "Route volume changed: " + route); } mCallbackHandler.post( CallbackHandler.MSG_ROUTE_VOLUME_CHANGED, route); } if ((changes & RouteInfo.CHANGE_PRESENTATION_DISPLAY) != 0) { if (DEBUG) { Log.d(TAG, "Route presentation display changed: " + route); } mCallbackHandler.post(CallbackHandler. MSG_ROUTE_PRESENTATION_DISPLAY_CHANGED, route); } } return changes; } private String assignRouteUniqueId(ProviderInfo provider, String routeDescriptorId) { // Although route descriptor ids are unique within a provider, it's // possible for there to be two providers with the same package name. // Therefore we must dedupe the composite id. String componentName = provider.getComponentName().flattenToShortString(); String uniqueId = componentName + ":" + routeDescriptorId; if (findRouteByUniqueId(uniqueId) < 0) { mUniqueIdMap.put(new Pair(componentName, routeDescriptorId), uniqueId); return uniqueId; } Log.w(TAG, "Either " + routeDescriptorId + " isn't unique in " + componentName + " or we're trying to assign a unique ID for an already added route"); for (int i = 2; ; i++) { String newUniqueId = String.format(Locale.US, "%s_%d", uniqueId, i); if (findRouteByUniqueId(newUniqueId) < 0) { mUniqueIdMap.put(new Pair(componentName, routeDescriptorId), newUniqueId); return newUniqueId; } } } private int findRouteByUniqueId(String uniqueId) { final int count = mRoutes.size(); for (int i = 0; i < count; i++) { if (mRoutes.get(i).mUniqueId.equals(uniqueId)) { return i; } } return -1; } private String getUniqueId(ProviderInfo provider, String routeDescriptorId) { String componentName = provider.getComponentName().flattenToShortString(); return mUniqueIdMap.get(new Pair(componentName, routeDescriptorId)); } private void updateSelectedRouteIfNeeded(boolean selectedRouteDescriptorChanged) { // Update default route. if (mDefaultRoute != null && !isRouteSelectable(mDefaultRoute)) { Log.i(TAG, "Clearing the default route because it " + "is no longer selectable: " + mDefaultRoute); mDefaultRoute = null; } if (mDefaultRoute == null && !mRoutes.isEmpty()) { for (RouteInfo route : mRoutes) { if (isSystemDefaultRoute(route) && isRouteSelectable(route)) { mDefaultRoute = route; Log.i(TAG, "Found default route: " + mDefaultRoute); break; } } } // Update selected route. if (mSelectedRoute != null && !isRouteSelectable(mSelectedRoute)) { Log.i(TAG, "Unselecting the current route because it " + "is no longer selectable: " + mSelectedRoute); setSelectedRouteInternal(null, MediaRouter.UNSELECT_REASON_UNKNOWN); } if (mSelectedRoute == null) { // Choose a new route. // This will have the side-effect of updating the playback info when // the new route is selected. setSelectedRouteInternal(chooseFallbackRoute(), MediaRouter.UNSELECT_REASON_UNKNOWN); } else if (selectedRouteDescriptorChanged) { // In case the selected route is a route group, select/unselect route controllers // for the added/removed route members. if (mSelectedRoute instanceof RouteGroup) { List routes = ((RouteGroup) mSelectedRoute).getRoutes(); // Build a set of descriptor IDs for the new route group. Set idSet = new HashSet(); for (RouteInfo route : routes) { idSet.add(route.mDescriptorId); } // Unselect route controllers for the removed routes. Iterator> iter = mRouteControllerMap.entrySet().iterator(); while (iter.hasNext()) { Map.Entry entry = iter.next(); if (!idSet.contains(entry.getKey())) { RouteController controller = entry.getValue(); controller.onUnselect(); controller.onRelease(); iter.remove(); } } // Select route controllers for the added routes. for (RouteInfo route : routes) { if (!mRouteControllerMap.containsKey(route.mDescriptorId)) { RouteController controller = route.getProviderInstance() .onCreateRouteController(route.mDescriptorId); controller.onSelect(); mRouteControllerMap.put(route.mDescriptorId, controller); } } } // Update the playback info because the properties of the route have changed. updatePlaybackInfoFromSelectedRoute(); } } RouteInfo chooseFallbackRoute() { // When the current route is removed or no longer selectable, // we want to revert to a live audio route if there is // one (usually Bluetooth A2DP). Failing that, use // the default route. for (RouteInfo route : mRoutes) { if (route != mDefaultRoute && isSystemLiveAudioOnlyRoute(route) && isRouteSelectable(route)) { return route; } } return mDefaultRoute; } private boolean isSystemLiveAudioOnlyRoute(RouteInfo route) { return route.getProviderInstance() == mSystemProvider && route.supportsControlCategory(MediaControlIntent.CATEGORY_LIVE_AUDIO) && !route.supportsControlCategory(MediaControlIntent.CATEGORY_LIVE_VIDEO); } private boolean isRouteSelectable(RouteInfo route) { // This tests whether the route is still valid and enabled. // The route descriptor field is set to null when the route is removed. return route.mDescriptor != null && route.mEnabled; } private boolean isSystemDefaultRoute(RouteInfo route) { return route.getProviderInstance() == mSystemProvider && route.mDescriptorId.equals( SystemMediaRouteProvider.DEFAULT_ROUTE_ID); } private void setSelectedRouteInternal(RouteInfo route, int unselectReason) { if (mSelectedRoute != route) { if (mSelectedRoute != null) { if (DEBUG) { Log.d(TAG, "Route unselected: " + mSelectedRoute + " reason: " + unselectReason); } mCallbackHandler.post(CallbackHandler.MSG_ROUTE_UNSELECTED, mSelectedRoute, unselectReason); if (mSelectedRouteController != null) { mSelectedRouteController.onUnselect(unselectReason); mSelectedRouteController.onRelease(); mSelectedRouteController = null; } if (!mRouteControllerMap.isEmpty()) { for (RouteController controller : mRouteControllerMap.values()) { controller.onUnselect(unselectReason); controller.onRelease(); } mRouteControllerMap.clear(); } } mSelectedRoute = route; if (mSelectedRoute != null) { mSelectedRouteController = route.getProviderInstance().onCreateRouteController( route.mDescriptorId); if (mSelectedRouteController != null) { mSelectedRouteController.onSelect(); } if (DEBUG) { Log.d(TAG, "Route selected: " + mSelectedRoute); } mCallbackHandler.post(CallbackHandler.MSG_ROUTE_SELECTED, mSelectedRoute); if (mSelectedRoute instanceof RouteGroup) { List routes = ((RouteGroup) mSelectedRoute).getRoutes(); mRouteControllerMap.clear(); for (RouteInfo r : routes) { RouteController controller = r.getProviderInstance() .onCreateRouteController(r.mDescriptorId); controller.onSelect(); mRouteControllerMap.put(r.mDescriptorId, controller); } } } updatePlaybackInfoFromSelectedRoute(); } } @Override public RouteInfo getSystemRouteByDescriptorId(String id) { int providerIndex = findProviderInfo(mSystemProvider); if (providerIndex >= 0) { ProviderInfo provider = mProviders.get(providerIndex); int routeIndex = provider.findRouteByDescriptorId(id); if (routeIndex >= 0) { return provider.mRoutes.get(routeIndex); } } return null; } public void addRemoteControlClient(Object rcc) { int index = findRemoteControlClientRecord(rcc); if (index < 0) { RemoteControlClientRecord record = new RemoteControlClientRecord(rcc); mRemoteControlClients.add(record); } } public void removeRemoteControlClient(Object rcc) { int index = findRemoteControlClientRecord(rcc); if (index >= 0) { RemoteControlClientRecord record = mRemoteControlClients.remove(index); record.disconnect(); } } public void setMediaSession(Object session) { if (mMediaSession != null) { mMediaSession.clearVolumeHandling(); } if (session == null) { mMediaSession = null; } else { mMediaSession = new MediaSessionRecord(session); updatePlaybackInfoFromSelectedRoute(); } } public void setMediaSessionCompat(final MediaSessionCompat session) { mCompatSession = session; if (android.os.Build.VERSION.SDK_INT >= 21) { setMediaSession(session != null ? session.getMediaSession() : null); } else if (android.os.Build.VERSION.SDK_INT >= 14) { if (mRccMediaSession != null) { removeRemoteControlClient(mRccMediaSession.getRemoteControlClient()); mRccMediaSession.removeOnActiveChangeListener(mSessionActiveListener); } mRccMediaSession = session; if (session != null) { session.addOnActiveChangeListener(mSessionActiveListener); if (session.isActive()) { addRemoteControlClient(session.getRemoteControlClient()); } } } } public MediaSessionCompat.Token getMediaSessionToken() { if (mMediaSession != null) { return mMediaSession.getToken(); } else if (mCompatSession != null) { return mCompatSession.getSessionToken(); } return null; } private int findRemoteControlClientRecord(Object rcc) { final int count = mRemoteControlClients.size(); for (int i = 0; i < count; i++) { RemoteControlClientRecord record = mRemoteControlClients.get(i); if (record.getRemoteControlClient() == rcc) { return i; } } return -1; } private void updatePlaybackInfoFromSelectedRoute() { if (mSelectedRoute != null) { mPlaybackInfo.volume = mSelectedRoute.getVolume(); mPlaybackInfo.volumeMax = mSelectedRoute.getVolumeMax(); mPlaybackInfo.volumeHandling = mSelectedRoute.getVolumeHandling(); mPlaybackInfo.playbackStream = mSelectedRoute.getPlaybackStream(); mPlaybackInfo.playbackType = mSelectedRoute.getPlaybackType(); final int count = mRemoteControlClients.size(); for (int i = 0; i < count; i++) { RemoteControlClientRecord record = mRemoteControlClients.get(i); record.updatePlaybackInfo(); } if (mMediaSession != null) { if (mSelectedRoute == getDefaultRoute()) { // Local route mMediaSession.clearVolumeHandling(); } else { @VolumeProviderCompat.ControlType int controlType = VolumeProviderCompat.VOLUME_CONTROL_FIXED; if (mPlaybackInfo.volumeHandling == MediaRouter.RouteInfo.PLAYBACK_VOLUME_VARIABLE) { controlType = VolumeProviderCompat.VOLUME_CONTROL_ABSOLUTE; } mMediaSession.configureVolume(controlType, mPlaybackInfo.volumeMax, mPlaybackInfo.volume); } } } else { if (mMediaSession != null) { mMediaSession.clearVolumeHandling(); } } } private final class ProviderCallback extends MediaRouteProvider.Callback { @Override public void onDescriptorChanged(MediaRouteProvider provider, MediaRouteProviderDescriptor descriptor) { updateProviderDescriptor(provider, descriptor); } } private final class MediaSessionRecord { private final MediaSessionCompat mMsCompat; private @VolumeProviderCompat.ControlType int mControlType; private int mMaxVolume; private VolumeProviderCompat mVpCompat; public MediaSessionRecord(Object mediaSession) { mMsCompat = MediaSessionCompat.obtain(mApplicationContext, mediaSession); } public void configureVolume(@VolumeProviderCompat.ControlType int controlType, int max, int current) { if (mVpCompat != null && controlType == mControlType && max == mMaxVolume) { // If we haven't changed control type or max just set the // new current volume mVpCompat.setCurrentVolume(current); } else { // Otherwise create a new provider and update mVpCompat = new VolumeProviderCompat(controlType, max, current) { @Override public void onSetVolumeTo(final int volume) { mCallbackHandler.post(new Runnable() { @Override public void run() { if (mSelectedRoute != null) { mSelectedRoute.requestSetVolume(volume); } } }); } @Override public void onAdjustVolume(final int direction) { mCallbackHandler.post(new Runnable() { @Override public void run() { if (mSelectedRoute != null) { mSelectedRoute.requestUpdateVolume(direction); } } }); } }; mMsCompat.setPlaybackToRemote(mVpCompat); } } public void clearVolumeHandling() { mMsCompat.setPlaybackToLocal(mPlaybackInfo.playbackStream); mVpCompat = null; } public MediaSessionCompat.Token getToken() { return mMsCompat.getSessionToken(); } } private final class RemoteControlClientRecord implements RemoteControlClientCompat.VolumeCallback { private final RemoteControlClientCompat mRccCompat; private boolean mDisconnected; public RemoteControlClientRecord(Object rcc) { mRccCompat = RemoteControlClientCompat.obtain(mApplicationContext, rcc); mRccCompat.setVolumeCallback(this); updatePlaybackInfo(); } public Object getRemoteControlClient() { return mRccCompat.getRemoteControlClient(); } public void disconnect() { mDisconnected = true; mRccCompat.setVolumeCallback(null); } public void updatePlaybackInfo() { mRccCompat.setPlaybackInfo(mPlaybackInfo); } @Override public void onVolumeSetRequest(int volume) { if (!mDisconnected && mSelectedRoute != null) { mSelectedRoute.requestSetVolume(volume); } } @Override public void onVolumeUpdateRequest(int direction) { if (!mDisconnected && mSelectedRoute != null) { mSelectedRoute.requestUpdateVolume(direction); } } } private final class CallbackHandler extends Handler { private final ArrayList mTempCallbackRecords = new ArrayList(); private static final int MSG_TYPE_MASK = 0xff00; private static final int MSG_TYPE_ROUTE = 0x0100; private static final int MSG_TYPE_PROVIDER = 0x0200; public static final int MSG_ROUTE_ADDED = MSG_TYPE_ROUTE | 1; public static final int MSG_ROUTE_REMOVED = MSG_TYPE_ROUTE | 2; public static final int MSG_ROUTE_CHANGED = MSG_TYPE_ROUTE | 3; public static final int MSG_ROUTE_VOLUME_CHANGED = MSG_TYPE_ROUTE | 4; public static final int MSG_ROUTE_PRESENTATION_DISPLAY_CHANGED = MSG_TYPE_ROUTE | 5; public static final int MSG_ROUTE_SELECTED = MSG_TYPE_ROUTE | 6; public static final int MSG_ROUTE_UNSELECTED = MSG_TYPE_ROUTE | 7; public static final int MSG_PROVIDER_ADDED = MSG_TYPE_PROVIDER | 1; public static final int MSG_PROVIDER_REMOVED = MSG_TYPE_PROVIDER | 2; public static final int MSG_PROVIDER_CHANGED = MSG_TYPE_PROVIDER | 3; public void post(int msg, Object obj) { obtainMessage(msg, obj).sendToTarget(); } public void post(int msg, Object obj, int arg) { Message message = obtainMessage(msg, obj); message.arg1 = arg; message.sendToTarget(); } @Override public void handleMessage(Message msg) { final int what = msg.what; final Object obj = msg.obj; final int arg = msg.arg1; // Synchronize state with the system media router. syncWithSystemProvider(what, obj); // Invoke all registered callbacks. // Build a list of callbacks before invoking them in case callbacks // are added or removed during dispatch. try { for (int i = mRouters.size(); --i >= 0; ) { MediaRouter router = mRouters.get(i).get(); if (router == null) { mRouters.remove(i); } else { mTempCallbackRecords.addAll(router.mCallbackRecords); } } final int callbackCount = mTempCallbackRecords.size(); for (int i = 0; i < callbackCount; i++) { invokeCallback(mTempCallbackRecords.get(i), what, obj, arg); } } finally { mTempCallbackRecords.clear(); } } private void syncWithSystemProvider(int what, Object obj) { switch (what) { case MSG_ROUTE_ADDED: mSystemProvider.onSyncRouteAdded((RouteInfo)obj); break; case MSG_ROUTE_REMOVED: mSystemProvider.onSyncRouteRemoved((RouteInfo)obj); break; case MSG_ROUTE_CHANGED: mSystemProvider.onSyncRouteChanged((RouteInfo)obj); break; case MSG_ROUTE_SELECTED: mSystemProvider.onSyncRouteSelected((RouteInfo)obj); break; } } private void invokeCallback(CallbackRecord record, int what, Object obj, int arg) { final MediaRouter router = record.mRouter; final MediaRouter.Callback callback = record.mCallback; switch (what & MSG_TYPE_MASK) { case MSG_TYPE_ROUTE: { final RouteInfo route = (RouteInfo)obj; if (!record.filterRouteEvent(route)) { break; } switch (what) { case MSG_ROUTE_ADDED: callback.onRouteAdded(router, route); break; case MSG_ROUTE_REMOVED: callback.onRouteRemoved(router, route); break; case MSG_ROUTE_CHANGED: callback.onRouteChanged(router, route); break; case MSG_ROUTE_VOLUME_CHANGED: callback.onRouteVolumeChanged(router, route); break; case MSG_ROUTE_PRESENTATION_DISPLAY_CHANGED: callback.onRoutePresentationDisplayChanged(router, route); break; case MSG_ROUTE_SELECTED: callback.onRouteSelected(router, route); break; case MSG_ROUTE_UNSELECTED: callback.onRouteUnselected(router, route, arg); break; } break; } case MSG_TYPE_PROVIDER: { final ProviderInfo provider = (ProviderInfo)obj; switch (what) { case MSG_PROVIDER_ADDED: callback.onProviderAdded(router, provider); break; case MSG_PROVIDER_REMOVED: callback.onProviderRemoved(router, provider); break; case MSG_PROVIDER_CHANGED: callback.onProviderChanged(router, provider); break; } } } } } } }