Dibangun di API Device Discovery dan Secure Connection, Sessions API menyediakan abstraksi yang canggih untuk membangun lintas perangkat yang lancar pengalaman yang lancar bagi developer. Sesi mewakili pengalaman pengguna aplikasi yang dapat ditransfer dan dibagikan di seluruh perangkat.
Sessions API juga dibuat berdasarkan konsep personal dan komunal pengalaman yang diwakili oleh transfer sesi dan kasus penggunaan berbagi sesi secara berurutan. Diagram berikut mengilustrasikan sesi pada level tinggi:
Membuat dan mentransfer sesi
Sessions API membedakan antara perangkat asal dan perangkat penerima. Perangkat asal membuat sesi dan mencari suatu perangkat yang mampu menangani sesi. Pengguna perangkat asal memilih perangkat dari daftar yang disediakan oleh dialog sistem. Setelah pengguna memilih perangkat penerima, sesi asal akan ditransfer dan dihapus dari perangkat asal.
Untuk mentransfer sesi, Anda harus membuatnya terlebih dahulu menggunakan parameter:
- Tag sesi aplikasi — ID yang memungkinkan Anda membedakan antara beberapa sesi di aplikasi Anda.
Kemudian, mulai transfer menggunakan parameter berikut:
DeviceFilteruntuk memfilter perangkat yang mampu menangani sesi- Objek callback yang menerapkan
OriginatingSessionStateCallback
Di perangkat asal, buat sesi menggunakan contoh di bawah:
Kotlin
private val HELLO_WORLD_TRANSFER_ACTION = "hello_world_transfer"
private lateinit var originatingSession: OriginatingSession
private lateinit var sessions: Sessions
override fun onCreate(savedInstanceState: Bundle?) {
super.onCreate(savedInstanceState)
sessions = Sessions.create(context = this)
}
suspend fun transferSession() {
val sessionId =
sessions.createSession(
ApplicationSessionTag("hello_world_transfer"),
)
originatingSession =
sessions.transferSession(
sessionId,
StartComponentRequest.Builder()
.setAction(HELLO_WORLD_TRANSFER_ACTION)
.setReason("Transfer reason here")
.build(),
emptyList(),
HelloWorldTransferSessionStateCallback()
)
}
Java
private static final String HELLO_WORLD_TRANSFER_ACTION = "hello_world_transfer";
private OriginatingSession originatingSession;
private Sessions sessions;
@Override
public void onCreate(@Nullable Bundle savedInstanceState) {
super.onCreate(savedInstanceState);
sessions = Sessions.create(/* context= */ this);
}
public void transferSession() {
SessionId sessionId = sessions.createSession(new ApplicationSessionTag("hello_world_transfer"));
ListenableFuture<OriginatingSession> originatingSessionFuture =
sessions.transferSessionFuture(
sessionId,
new StartComponentRequest.Builder()
.setAction(HELLO_WORLD_TRANSFER_ACTION)
.setReason("Transfer reason here")
.build(),
Collections.emptyList(),
new HelloWorldTransferSessionStateCallback());
Futures.addCallback(
originatingSessionFuture,
new FutureCallback<>() {
@Override
public void onSuccess(OriginatingSession result) {
// Do nothing, handled in HelloWorldTransferSessionStateCallback
originatingSession = result;
}
@Override
public void onFailure(Throwable t) {
Log.d(TAG, "onFailure called for transferSessionFuture", t);
}
},
mainExecutor);
}
Berikutnya, tentukan callback sesi pada perangkat asal:
Kotlin
private inner class HelloWorldTransferSessionStateCallback : OriginatingSessionStateCallback {
override fun onConnected(sessionId: SessionId) {
val startupRemoteConnection = originatingSession.getStartupRemoteConnection()
lifecycleScope.launchWhenResumed {
startupRemoteConnection.send("hello, world".toByteArray(UTF_8))
startupRemoteConnection.registerReceiver(
object : SessionConnectionReceiver {
override fun onMessageReceived(participant: SessionParticipant, payload: ByteArray) {
val ok = payload.contentEquals("ok".toByteArray(UTF_8))
Log.d(TAG, "Session transfer initialized. ok=$ok")
}
}
)
}
}
override fun onSessionTransferred(sessionId: SessionId) {
Log.d(TAG, "Transfer done.")
}
override fun onTransferFailure(sessionId: SessionId, exception: SessionException) {
// Handle error
}
}
Java
private class HelloWorldTransferSessionStateCallback implements OriginatingSessionStateCallback {
@Override
public void onConnected(SessionId sessionId) {
SessionRemoteConnection startupRemoteConnection =
originatingSession.getStartupRemoteConnection();
Futures.addCallback(
startupRemoteConnection.sendFuture("hello, world".getBytes()),
new FutureCallback<>() {
@Override
public void onSuccess(Void result) {
Log.d(TAG, "Successfully sent initialization message");
}
@Override
public void onFailure(Throwable t) {
Log.d(TAG, "Failed to send initialization message", t);
}
},
mainExecutor);
}
@Override
public void onSessionTransferred(SessionId sessionId) {
Log.d(TAG, "Transfer done.");
}
@Override
public void onTransferFailure(SessionId sessionId, SessionException exception) {
// Handle error
}
}
Setelah transfer sesi dimulai, perangkat penerima akan menerima callback
dalam metode onNewIntent(intent: Intent). Data intent berisi semua
yang diperlukan untuk
mentransfer sesi.
Untuk menyelesaikan transfer di perangkat penerima:
Kotlin
private lateinit var sessions: Sessions
override fun onCreate(savedInstanceState: Bundle?) {
super.onCreate(savedInstanceState)
sessions = Sessions.create(context = this)
}
override fun onNewIntent(intent: Intent) {
super.onNewIntent(intent)
lifecycleScope.launchWhenResumed {
val receivingSession =
sessions.getReceivingSession(intent, HelloWorldReceivingSessionStateCallback())
// Get info from receiving device and init.
val startupRemoteConnection = receivingSession.getStartupRemoteConnection()
startupRemoteConnection.registerReceiver(
object : SessionConnectionReceiver {
override fun onMessageReceived(participant: SessionParticipant, payload: ByteArray) {
lifecycleScope.launchWhenResumed {
val transferInfo = String(payload)
startupRemoteConnection.send("ok".toByteArray(UTF_8))
// Complete transfer.
Log.d(TAG, "Transfer info: " + transferInfo)
receivingSession.onComplete()
}
}
}
)
}
}
private inner class HelloWorldReceivingSessionStateCallback : ReceivingSessionStateCallback {
override fun onTransferFailure(sessionId: SessionId, exception: SessionException) {
// Handle error
}
}
Java
private Sessions sessions;
@Override
public void onCreate(@Nullable Bundle savedInstanceState) {
super.onCreate(savedInstanceState);
sessions = Sessions.create(/* context= */ this);
}
@Override
public void onNewIntent(Intent intent) {
super.onNewIntent(intent);
ListenableFuture<ReceivingSession> receivingSessionFuture =
sessions.getReceivingSessionFuture(intent, new HelloWorldReceivingSessionStateCallback());
ListenableFuture<Void> registerReceiverFuture =
Futures.transform(
receivingSessionFuture,
receivingSession -> {
SessionRemoteConnection startupRemoteConnection =
receivingSession.getStartupRemoteConnection();
SessionConnectionReceiver receiver =
(participant, payload) -> {
Log.d(
TAG,
"Successfully received initialization message of size: " + payload.length);
applicationInitialization(receivingSession, payload);
};
startupRemoteConnection.registerReceiver(receiver);
return null;
},
mainExecutor);
Futures.addCallback(
registerReceiverFuture,
new FutureCallback<Void>() {
@Override
public void onSuccess(Void unused) {
Log.d(TAG, "Connection receiver registerd successfully");
}
@Override
public void onFailure(Throwable t) {
Log.w(TAG, "Failed to register connection receiver", t);
}
},
mainExecutor);
}
private void applicationInitialization(ReceivingSession receivingSession, byte[] initMessage) {
ListenableFuture<SessionId> disconnectFuture =
Futures.transform(
receivingSession.onCompleteFuture(),
sessionId -> {
Log.d(TAG, "Succeeded to complete receive transfer for: " + sessionId);
return sessionId;
},
mainExecutor);
Futures.addCallback(
disconnectFuture,
new FutureCallback<SessionId>() {
@Override
public void onSuccess(SessionId result) {
Log.d(TAG, "Succeeded to remove the old session: " + result);
}
@Override
public void onFailure(Throwable t) {
Log.d(TAG, "Failed to remove the old session, which is now orphaned", t);
}
},
mainExecutor);
}
private static class HelloWorldReceivingSessionStateCallback
implements ReceivingSessionStateCallback {
@Override
public void onTransferFailure(SessionId sessionId, SessionException exception) {
// Handle error
}
}
Sekarang perangkat penerima dapat melanjutkan dengan pengalaman pengguna.
Membagikan sesi
Dengan berbagi sesi, Anda dapat mengundang orang lain di sekitar Anda untuk berpartisipasi dalam grup pengguna, misalnya:
- Bagikan lokasi peta sebagai penumpang langsung ke mobil teman Anda.
- Bagikan rute sepeda hari Minggu kepada orang lain yang menggunakan sepeda Anda.
- Kumpulkan item untuk pesanan makanan grup tanpa membawa ponsel Anda.
- Ikuti voting grup untuk menonton acara TV berikutnya untuk ditonton bersama.
Ketika pengguna memilih untuk berbagi sesi dengan perangkat lain, mencari dan menghadirkan perangkat yang dapat bergabung dalam sesi dan pengguna memilih perangkat penerima. Aplikasi meminta pengguna untuk perangkat penerima untuk bergabung dengan sesi dari perangkat asalnya. Penerimaan perangkat kemudian diberikan sesi sekunder untuk berinteraksi dengan sesi di perangkat asal. Aplikasi juga dapat menambahkan peserta tambahan ke sesi bersama yang sedang berlangsung.
Proses berbagi sesi mirip dengan mentransfer sesi,
tetapi, alih-alih memanggil transferSession, panggil shareSession. Lainnya
perbedaannya terletak pada metode callback status sesi.
Kotlin
// Originating side.
private val HELLO_WORLD_SHARE_ACTION = "hello_world_share"
private var activePrimarySession: PrimarySession? = null
private lateinit var sessions: Sessions
override fun onCreate(savedInstanceState: Bundle?) {
super.onCreate(savedInstanceState)
sessions = Sessions.create(context = this)
}
suspend fun shareSession() {
val sessionId = sessions.createSession(ApplicationSessionTag("hello_world_share"))
activePrimarySession =
sessions.shareSession(
sessionId,
StartComponentRequest.Builder()
.setAction(HELLO_WORLD_SHARE_ACTION)
.setReason("Share reason here")
.build(),
emptyList(),
HelloWorldShareSessionStateCallback(),
)
}
private inner class HelloWorldShareSessionStateCallback : PrimarySessionStateCallback {
override fun onShareInitiated(sessionId: SessionId, numPotentialParticipants: Int) {
// Custom logic here for when n devices can potentially join.
// e.g. if there were 0, cancel/error if desired,
// if non-0 maybe spin until numPotentialParticipants join etc.
}
override fun onParticipantJoined(sessionId: SessionId, participant: SessionParticipant) {
// Custom join logic here
lifecycleScope.launchWhenResumed {
// Example logic: send only to the participant who just joined.
val connection =
checkNotNull(activePrimarySession).getSecondaryRemoteConnectionForParticipant(participant)
connection.send("Initing hello, world.".toByteArray(UTF_8))
connection.registerReceiver(
object : SessionConnectionReceiver {
override fun onMessageReceived(participant: SessionParticipant, payload: ByteArray) {
val ok = payload.contentEquals("ok".toByteArray(UTF_8))
Log.d(TAG, "Session share initialized. ok=$ok")
// Example logic: broadcast to all participants, including the one
// that just joined.
lifecycleScope.launchWhenResumed {
checkNotNull(activePrimarySession)
.broadcastToSecondaries("hello, all.".toByteArray(UTF_8))
}
}
}
)
}
}
override fun onParticipantDeparted(sessionId: SessionId, participant: SessionParticipant) {
// Custom leave logic here.
}
override fun onPrimarySessionCleanup(sessionId: SessionId) {
// Custom cleanup logic here.
activePrimarySession = null
}
override fun onShareFailureWithParticipant(
sessionId: SessionId,
exception: SessionException,
participant: SessionParticipant
) {
// Handle error
}
}
Java
// Originating side
private static final String HELLO_WORLD_SHARE_ACTION = "hello_world_share";
@Nullable private PrimarySession activePrimarySession = null;
private Sessions sessions;
@Override
public void onCreate(@Nullable Bundle savedInstanceState) {
super.onCreate(savedInstanceState);
sessions = Sessions.create(/* context= */ this);
}
private void shareSession() {
SessionId sessionId = sessions.createSession(new ApplicationSessionTag("hello_world_share"));
ListenableFuture<PrimarySession> shareSessionFuture =
sessions.shareSessionFuture(
sessionId,
new StartComponentRequest.Builder()
.setAction(HELLO_WORLD_SHARE_ACTION)
.setReason("Share reason here")
.build(),
Collections.emptyList(),
new HelloWorldShareSessionStateCallback());
Futures.addCallback(
shareSessionFuture,
new FutureCallback<PrimarySession>() {
@Override
public void onSuccess(PrimarySession primarySession) {
activePrimarySession = primarySession;
}
@Override
public void onFailure(Throwable t) {
Log.d(TAG, "Failed to share session", t);
}
},
mainExecutor);
}
private class HelloWorldShareSessionStateCallback implements PrimarySessionStateCallback {
@Override
public void onShareInitiated(SessionId sessionId, int numPotentialParticipants) {
// Custom logic here for when n devices can potentially join.
// e.g. if there were 0, cancel/error if desired,
// if non-0 maybe spin until numPotentialParticipants join etc.
}
@Override
public void onParticipantJoined(SessionId sessionId, SessionParticipant participant) {
PrimarySession joinedSession = activePrimarySession;
if (joinedSession == null) {
return;
}
SessionRemoteConnection connection =
joinedSession.getSecondaryRemoteConnectionForParticipant(participant);
Futures.addCallback(
connection.sendFuture("Initiating hello, world.".getBytes()),
new FutureCallback<Void>() {
@Override
public void onSuccess(Void result) {
// Send successful.
}
@Override
public void onFailure(Throwable t) {
// Failed to send.
}
},
mainExecutor);
connection.registerReceiver(
new SessionConnectionReceiver() {
@Override
public void onMessageReceived(SessionParticipant participant, byte[] payload) {
boolean ok = new String(payload, UTF_8).equals("ok");
Log.d(TAG, "Session share initialized. ok=" + ok);
// Example logic: broadcast to all participants, including the one
// that just joined.
Futures.addCallback(
joinedSession.broadcastToSecondariesFuture("hello, all.".getBytes()),
new FutureCallback<Void>() {
@Override
public void onSuccess(Void result) {
// Broadcast successful.
}
@Override
public void onFailure(Throwable t) {
// Failed to broadcast hello world.
}
},
mainExecutor);
}
});
}
@Override
public void onParticipantDeparted(SessionId sessionId, SessionParticipant participant) {
// Custom leave logic here.
}
@Override
public void onPrimarySessionCleanup(SessionId sessionId) {
// Custom cleanup logic here.
activePrimarySession = null;
}
@Override
public void onShareFailureWithParticipant(
SessionId sessionId, SessionException exception, SessionParticipant participant) {
// Custom error handling logic here.
}
}
Di sisi penerima:
Kotlin
// Receiving side.
override fun onNewIntent(intent: Intent) {
super.onNewIntent(intent)
lifecycleScope.launchWhenResumed {
val secondarySession =
sessions.getSecondarySession(intent, HelloWorldSecondaryShareSessionStateCallback())
val remoteConnection = secondarySession.getDefaultRemoteConnection()
remoteConnection.registerReceiver(
object : SessionConnectionReceiver {
override fun onMessageReceived(participant: SessionParticipant, payload: ByteArray) {
Log.d(TAG, "Payload received: ${String(payload)}")
}
}
)
}
}
private inner class HelloWorldSecondaryShareSessionStateCallback : SecondarySessionStateCallback {
override fun onSecondarySessionCleanup(sessionId: SessionId) {
// Custom cleanup logic here.
}
}
Java
// Receiving side.
@Override
public void onNewIntent(Intent intent) {
super.onNewIntent(intent);
sessions = Sessions.create(this);
ListenableFuture<SecondarySession> secondarySessionFuture =
sessions.getSecondarySessionFuture(
intent, new HelloWorldSecondaryShareSessionStateCallback());
Futures.addCallback(
secondarySessionFuture,
new FutureCallback<SecondarySession>() {
@Override
public void onSuccess(SecondarySession secondarySession) {
SessionRemoteConnection remoteConnection =
secondarySession.getDefaultRemoteConnection();
remoteConnection.registerReceiver(
new SessionConnectionReceiver() {
@Override
public void onMessageReceived(SessionParticipant participant, byte[] payload) {
Log.d(TAG, "Payload received: " + new String(payload, UTF_8));
}
});
}
@Override
public void onFailure(Throwable t) {
// Handle error.
}
},
mainExecutor);
}
private static class HelloWorldSecondaryShareSessionStateCallback
implements SecondarySessionStateCallback {
@Override
public void onSecondarySessionCleanup(SessionId sessionId) {
// Custom cleanup logic here.
}
}