/* * Copyright (C) 2010 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.nfc; import android.Manifest; import android.annotation.CallbackExecutor; import android.annotation.FlaggedApi; import android.annotation.IntDef; import android.annotation.IntRange; import android.annotation.NonNull; import android.annotation.Nullable; import android.annotation.RequiresPermission; import android.annotation.SdkConstant; import android.annotation.SdkConstant.SdkConstantType; import android.annotation.SuppressLint; import android.annotation.SystemApi; import android.annotation.TestApi; import android.annotation.UserIdInt; import android.app.Activity; import android.app.PendingIntent; import android.compat.annotation.UnsupportedAppUsage; import android.content.Context; import android.content.IntentFilter; import android.content.pm.PackageManager; import android.content.pm.ResolveInfo; import android.net.Uri; import android.nfc.cardemulation.PollingFrame; import android.nfc.tech.MifareClassic; import android.nfc.tech.Ndef; import android.nfc.tech.NfcA; import android.nfc.tech.NfcF; import android.os.Binder; import android.os.Build; import android.os.Bundle; import android.os.Handler; import android.os.IBinder; import android.os.RemoteException; import android.util.Log; import java.io.IOException; import java.lang.annotation.Retention; import java.lang.annotation.RetentionPolicy; import java.util.ArrayList; import java.util.Collections; import java.util.HashMap; import java.util.List; import java.util.Map; import java.util.Objects; import java.util.concurrent.Executor; /** * Represents the local NFC adapter. *

* Use the helper {@link #getDefaultAdapter(Context)} to get the default NFC * adapter for this Android device. * *

*

Developer Guides

*

For more information about using NFC, read the * Near Field Communication developer guide.

*

To perform basic file sharing between devices, read * Sharing Files with NFC. *

*/ public final class NfcAdapter { static final String TAG = "NFC"; private final NfcControllerAlwaysOnListener mControllerAlwaysOnListener; private final NfcWlcStateListener mNfcWlcStateListener; private final NfcVendorNciCallbackListener mNfcVendorNciCallbackListener; /** * Intent to start an activity when a tag with NDEF payload is discovered. * *

The system inspects the first {@link NdefRecord} in the first {@link NdefMessage} and * looks for a URI, SmartPoster, or MIME record. If a URI or SmartPoster record is found the * intent will contain the URI in its data field. If a MIME record is found the intent will * contain the MIME type in its type field. This allows activities to register * {@link IntentFilter}s targeting specific content on tags. Activities should register the * most specific intent filters possible to avoid the activity chooser dialog, which can * disrupt the interaction with the tag as the user interacts with the screen. * *

If the tag has an NDEF payload this intent is started before * {@link #ACTION_TECH_DISCOVERED}. If any activities respond to this intent neither * {@link #ACTION_TECH_DISCOVERED} or {@link #ACTION_TAG_DISCOVERED} will be started. * *

The MIME type or data URI of this intent are normalized before dispatch - * so that MIME, URI scheme and URI host are always lower-case. */ @SdkConstant(SdkConstantType.ACTIVITY_INTENT_ACTION) public static final String ACTION_NDEF_DISCOVERED = "android.nfc.action.NDEF_DISCOVERED"; /** * Intent to start an activity when a tag is discovered and activities are registered for the * specific technologies on the tag. * *

To receive this intent an activity must include an intent filter * for this action and specify the desired tech types in a * manifest meta-data entry. Here is an example manfiest entry: * 

     * <activity android:name=".nfc.TechFilter" android:label="NFC/TechFilter">
     *     <!-- Add a technology filter -->
     *     <intent-filter>
     *         <action android:name="android.nfc.action.TECH_DISCOVERED" />
     *     </intent-filter>
     *
     *     <meta-data android:name="android.nfc.action.TECH_DISCOVERED"
     *         android:resource="@xml/filter_nfc"
     *     />
     * </activity>
* *

The meta-data XML file should contain one or more tech-list entries * each consisting or one or more tech entries. The tech entries refer * to the qualified class name implementing the technology, for example "android.nfc.tech.NfcA". * *

A tag matches if any of the * tech-list sets is a subset of {@link Tag#getTechList() Tag.getTechList()}. Each * of the tech-lists is considered independently and the * activity is considered a match is any single tech-list matches the tag that was * discovered. This provides AND and OR semantics for filtering desired techs. Here is an * example that will match any tag using {@link NfcF} or any tag using {@link NfcA}, * {@link MifareClassic}, and {@link Ndef}: * * 

     * <resources xmlns:xliff="urn:oasis:names:tc:xliff:document:1.2">
     *     <!-- capture anything using NfcF -->
     *     <tech-list>
     *         <tech>android.nfc.tech.NfcF</tech>
     *     </tech-list>
     *
     *     <!-- OR -->
     *
     *     <!-- capture all MIFARE Classics with NDEF payloads -->
     *     <tech-list>
     *         <tech>android.nfc.tech.NfcA</tech>
     *         <tech>android.nfc.tech.MifareClassic</tech>
     *         <tech>android.nfc.tech.Ndef</tech>
     *     </tech-list>
     * </resources>
* *

This intent is started after {@link #ACTION_NDEF_DISCOVERED} and before * {@link #ACTION_TAG_DISCOVERED}. If any activities respond to {@link #ACTION_NDEF_DISCOVERED} * this intent will not be started. If any activities respond to this intent * {@link #ACTION_TAG_DISCOVERED} will not be started. */ @SdkConstant(SdkConstantType.ACTIVITY_INTENT_ACTION) public static final String ACTION_TECH_DISCOVERED = "android.nfc.action.TECH_DISCOVERED"; /** * Intent to start an activity when a tag is discovered. * *

This intent will not be started when a tag is discovered if any activities respond to * {@link #ACTION_NDEF_DISCOVERED} or {@link #ACTION_TECH_DISCOVERED} for the current tag. */ @SdkConstant(SdkConstantType.ACTIVITY_INTENT_ACTION) public static final String ACTION_TAG_DISCOVERED = "android.nfc.action.TAG_DISCOVERED"; /** * Broadcast Action: Intent to notify an application that a transaction event has occurred * on the Secure Element. * *

This intent will only be sent if the application has requested permission for * {@link android.Manifest.permission#NFC_TRANSACTION_EVENT} and if the application has the * necessary access to Secure Element which witnessed the particular event. */ @RequiresPermission(android.Manifest.permission.NFC_TRANSACTION_EVENT) @SdkConstant(SdkConstantType.BROADCAST_INTENT_ACTION) public static final String ACTION_TRANSACTION_DETECTED = "android.nfc.action.TRANSACTION_DETECTED"; /** * Broadcast Action: Intent to notify if the preferred payment service changed. * *

This intent will only be sent to the application has requested permission for * {@link android.Manifest.permission#NFC_PREFERRED_PAYMENT_INFO} and if the application * has the necessary access to Secure Element which witnessed the particular event. */ @RequiresPermission(android.Manifest.permission.NFC_PREFERRED_PAYMENT_INFO) @SdkConstant(SdkConstantType.BROADCAST_INTENT_ACTION) public static final String ACTION_PREFERRED_PAYMENT_CHANGED = "android.nfc.action.PREFERRED_PAYMENT_CHANGED"; /** * Broadcast to only the activity that handles ACTION_TAG_DISCOVERED * @hide */ public static final String ACTION_TAG_LEFT_FIELD = "android.nfc.action.TAG_LOST"; /** * Mandatory extra containing the {@link Tag} that was discovered for the * {@link #ACTION_NDEF_DISCOVERED}, {@link #ACTION_TECH_DISCOVERED}, and * {@link #ACTION_TAG_DISCOVERED} intents. */ public static final String EXTRA_TAG = "android.nfc.extra.TAG"; /** * Extra containing an array of {@link NdefMessage} present on the discovered tag.

* This extra is mandatory for {@link #ACTION_NDEF_DISCOVERED} intents, * and optional for {@link #ACTION_TECH_DISCOVERED}, and * {@link #ACTION_TAG_DISCOVERED} intents.

* When this extra is present there will always be at least one * {@link NdefMessage} element. Most NDEF tags have only one NDEF message, * but we use an array for future compatibility. */ public static final String EXTRA_NDEF_MESSAGES = "android.nfc.extra.NDEF_MESSAGES"; /** * Optional extra containing a byte array containing the ID of the discovered tag for * the {@link #ACTION_NDEF_DISCOVERED}, {@link #ACTION_TECH_DISCOVERED}, and * {@link #ACTION_TAG_DISCOVERED} intents. */ public static final String EXTRA_ID = "android.nfc.extra.ID"; /** * Broadcast Action: The state of the local NFC adapter has been * changed. *

For example, NFC has been turned on or off. *

Always contains the extra field {@link #EXTRA_ADAPTER_STATE} */ @SdkConstant(SdkConstantType.BROADCAST_INTENT_ACTION) public static final String ACTION_ADAPTER_STATE_CHANGED = "android.nfc.action.ADAPTER_STATE_CHANGED"; /** * Used as an int extra field in {@link #ACTION_ADAPTER_STATE_CHANGED} * intents to request the current power state. Possible values are: * {@link #STATE_OFF}, * {@link #STATE_TURNING_ON}, * {@link #STATE_ON}, * {@link #STATE_TURNING_OFF}, */ public static final String EXTRA_ADAPTER_STATE = "android.nfc.extra.ADAPTER_STATE"; /** * Mandatory byte[] extra field in {@link #ACTION_TRANSACTION_DETECTED} */ public static final String EXTRA_AID = "android.nfc.extra.AID"; /** * Optional byte[] extra field in {@link #ACTION_TRANSACTION_DETECTED} */ public static final String EXTRA_DATA = "android.nfc.extra.DATA"; /** * Mandatory String extra field in {@link #ACTION_TRANSACTION_DETECTED} * Indicates the Secure Element on which the transaction occurred. * eSE1...eSEn for Embedded Secure Elements, SIM1...SIMn for UICC, etc. */ public static final String EXTRA_SECURE_ELEMENT_NAME = "android.nfc.extra.SECURE_ELEMENT_NAME"; /** * Mandatory String extra field in {@link #ACTION_PREFERRED_PAYMENT_CHANGED} * Indicates the condition when trigger this event. Possible values are: * {@link #PREFERRED_PAYMENT_LOADED}, * {@link #PREFERRED_PAYMENT_CHANGED}, * {@link #PREFERRED_PAYMENT_UPDATED}, */ public static final String EXTRA_PREFERRED_PAYMENT_CHANGED_REASON = "android.nfc.extra.PREFERRED_PAYMENT_CHANGED_REASON"; /** * Nfc is enabled and the preferred payment aids are registered. */ public static final int PREFERRED_PAYMENT_LOADED = 1; /** * User selected another payment application as the preferred payment. */ public static final int PREFERRED_PAYMENT_CHANGED = 2; /** * Current preferred payment has issued an update (registered/unregistered new aids or has been * updated itself). */ public static final int PREFERRED_PAYMENT_UPDATED = 3; public static final int STATE_OFF = 1; public static final int STATE_TURNING_ON = 2; public static final int STATE_ON = 3; public static final int STATE_TURNING_OFF = 4; /** * Possible states from {@link #getAdapterState}. * * @hide */ @IntDef(prefix = { "STATE_" }, value = { STATE_OFF, STATE_TURNING_ON, STATE_ON, STATE_TURNING_OFF }) @Retention(RetentionPolicy.SOURCE) public @interface AdapterState{} /** * Flag for use with {@link #enableReaderMode(Activity, ReaderCallback, int, Bundle)}. *

* Setting this flag enables polling for Nfc-A technology. */ public static final int FLAG_READER_NFC_A = 0x1; /** * Flag for use with {@link #enableReaderMode(Activity, ReaderCallback, int, Bundle)}. *

* Setting this flag enables polling for Nfc-B technology. */ public static final int FLAG_READER_NFC_B = 0x2; /** * Flag for use with {@link #enableReaderMode(Activity, ReaderCallback, int, Bundle)}. *

* Setting this flag enables polling for Nfc-F technology. */ public static final int FLAG_READER_NFC_F = 0x4; /** * Flag for use with {@link #enableReaderMode(Activity, ReaderCallback, int, Bundle)}. *

* Setting this flag enables polling for Nfc-V (ISO15693) technology. */ public static final int FLAG_READER_NFC_V = 0x8; /** * Flag for use with {@link #enableReaderMode(Activity, ReaderCallback, int, Bundle)}. *

* Setting this flag enables polling for NfcBarcode technology. */ public static final int FLAG_READER_NFC_BARCODE = 0x10; /** @hide */ @IntDef(flag = true, prefix = {"FLAG_READER_"}, value = { FLAG_READER_KEEP, FLAG_READER_DISABLE, FLAG_READER_NFC_A, FLAG_READER_NFC_B, FLAG_READER_NFC_F, FLAG_READER_NFC_V, FLAG_READER_NFC_BARCODE }) @Retention(RetentionPolicy.SOURCE) public @interface PollTechnology {} /** * Flag for use with {@link #enableReaderMode(Activity, ReaderCallback, int, Bundle)}. *

* Setting this flag allows the caller to prevent the * platform from performing an NDEF check on the tags it * finds. */ public static final int FLAG_READER_SKIP_NDEF_CHECK = 0x80; /** * Flag for use with {@link #enableReaderMode(Activity, ReaderCallback, int, Bundle)}. *

* Setting this flag allows the caller to prevent the * platform from playing sounds when it discovers a tag. */ public static final int FLAG_READER_NO_PLATFORM_SOUNDS = 0x100; /** * Int Extra for use with {@link #enableReaderMode(Activity, ReaderCallback, int, Bundle)}. *

* Setting this integer extra allows the calling application to specify * the delay that the platform will use for performing presence checks * on any discovered tag. */ public static final String EXTRA_READER_PRESENCE_CHECK_DELAY = "presence"; /** * Flag for use with {@link #setDiscoveryTechnology(Activity, int, int)}. *

* Setting this flag enables listening for Nfc-A technology. */ @FlaggedApi(Flags.FLAG_ENABLE_NFC_SET_DISCOVERY_TECH) public static final int FLAG_LISTEN_NFC_PASSIVE_A = 0x1; /** * Flag for use with {@link #setDiscoveryTechnology(Activity, int, int)}. *

* Setting this flag enables listening for Nfc-B technology. */ @FlaggedApi(Flags.FLAG_ENABLE_NFC_SET_DISCOVERY_TECH) public static final int FLAG_LISTEN_NFC_PASSIVE_B = 1 << 1; /** * Flag for use with {@link #setDiscoveryTechnology(Activity, int, int)}. *

* Setting this flag enables listening for Nfc-F technology. */ @FlaggedApi(Flags.FLAG_ENABLE_NFC_SET_DISCOVERY_TECH) public static final int FLAG_LISTEN_NFC_PASSIVE_F = 1 << 2; /** * Flags for use with {@link #setDiscoveryTechnology(Activity, int, int)}. *

* Setting this flag disables listening. */ @FlaggedApi(Flags.FLAG_ENABLE_NFC_SET_DISCOVERY_TECH) public static final int FLAG_LISTEN_DISABLE = 0x0; /** * Flags for use with {@link #setDiscoveryTechnology(Activity, int, int)}. *

* Setting this flag disables polling. */ @FlaggedApi(Flags.FLAG_ENABLE_NFC_SET_DISCOVERY_TECH) public static final int FLAG_READER_DISABLE = 0x0; /** * Flags for use with {@link #setDiscoveryTechnology(Activity, int, int)}. *

* Setting this flag makes listening to keep the current technology configuration. */ @FlaggedApi(Flags.FLAG_ENABLE_NFC_SET_DISCOVERY_TECH) public static final int FLAG_LISTEN_KEEP = 0x80000000; /** * Flags for use with {@link #setDiscoveryTechnology(Activity, int, int)}. *

* Setting this flag makes polling to keep the current technology configuration. */ @FlaggedApi(Flags.FLAG_ENABLE_NFC_SET_DISCOVERY_TECH) public static final int FLAG_READER_KEEP = 0x80000000; /** @hide */ public static final int FLAG_USE_ALL_TECH = 0xff; /** @hide */ @IntDef(flag = true, prefix = {"FLAG_LISTEN_"}, value = { FLAG_LISTEN_KEEP, FLAG_LISTEN_DISABLE, FLAG_LISTEN_NFC_PASSIVE_A, FLAG_LISTEN_NFC_PASSIVE_B, FLAG_LISTEN_NFC_PASSIVE_F }) @Retention(RetentionPolicy.SOURCE) public @interface ListenTechnology {} /** * @hide * @removed */ @SystemApi @UnsupportedAppUsage public static final int FLAG_NDEF_PUSH_NO_CONFIRM = 0x1; /** @hide */ public static final String ACTION_HANDOVER_TRANSFER_STARTED = "android.nfc.action.HANDOVER_TRANSFER_STARTED"; /** @hide */ public static final String ACTION_HANDOVER_TRANSFER_DONE = "android.nfc.action.HANDOVER_TRANSFER_DONE"; /** @hide */ public static final String EXTRA_HANDOVER_TRANSFER_STATUS = "android.nfc.extra.HANDOVER_TRANSFER_STATUS"; /** @hide */ public static final int HANDOVER_TRANSFER_STATUS_SUCCESS = 0; /** @hide */ public static final int HANDOVER_TRANSFER_STATUS_FAILURE = 1; /** @hide */ public static final String EXTRA_HANDOVER_TRANSFER_URI = "android.nfc.extra.HANDOVER_TRANSFER_URI"; /** * Broadcast Action: Notify possible NFC transaction blocked because device is locked. *

An external NFC field detected when device locked and SecureNfc enabled. * @hide */ @SystemApi @FlaggedApi(Flags.FLAG_ENABLE_NFC_MAINLINE) public static final String ACTION_REQUIRE_UNLOCK_FOR_NFC = "android.nfc.action.REQUIRE_UNLOCK_FOR_NFC"; /** * Intent action to start a NFC resolver activity in a customized share session with list of * {@link ResolveInfo}. * @hide */ @SystemApi @FlaggedApi(Flags.FLAG_ENABLE_NFC_MAINLINE) @RequiresPermission(Manifest.permission.SHOW_CUSTOMIZED_RESOLVER) public static final String ACTION_SHOW_NFC_RESOLVER = "android.nfc.action.SHOW_NFC_RESOLVER"; /** * "Extras" key for an ArrayList of {@link ResolveInfo} records which are to be shown as the * targets in the customized share session. * @hide */ @SystemApi @FlaggedApi(Flags.FLAG_ENABLE_NFC_MAINLINE) public static final String EXTRA_RESOLVE_INFOS = "android.nfc.extra.RESOLVE_INFOS"; /** * The requested app is correctly added to the Tag intent app preference. * * @see #setTagIntentAppPreferenceForUser(int userId, String pkg, boolean allow) * @hide */ @SystemApi public static final int TAG_INTENT_APP_PREF_RESULT_SUCCESS = 0; /** * The requested app is not installed on the device. * * @see #setTagIntentAppPreferenceForUser(int userId, String pkg, boolean allow) * @hide */ @SystemApi public static final int TAG_INTENT_APP_PREF_RESULT_PACKAGE_NOT_FOUND = -1; /** * The NfcService is not available. * * @see #setTagIntentAppPreferenceForUser(int userId, String pkg, boolean allow) * @hide */ @SystemApi public static final int TAG_INTENT_APP_PREF_RESULT_UNAVAILABLE = -2; /** * Possible response codes from {@link #setTagIntentAppPreferenceForUser}. * * @hide */ @IntDef(prefix = { "TAG_INTENT_APP_PREF_RESULT" }, value = { TAG_INTENT_APP_PREF_RESULT_SUCCESS, TAG_INTENT_APP_PREF_RESULT_PACKAGE_NOT_FOUND, TAG_INTENT_APP_PREF_RESULT_UNAVAILABLE}) @Retention(RetentionPolicy.SOURCE) public @interface TagIntentAppPreferenceResult {} // Guarded by sLock static boolean sIsInitialized = false; static boolean sHasNfcFeature; static boolean sHasCeFeature; static boolean sHasNfcWlcFeature; static Object sLock = new Object(); // Final after first constructor, except for // attemptDeadServiceRecovery() when NFC crashes - we accept a best effort // recovery @UnsupportedAppUsage static INfcAdapter sService; static NfcServiceManager.ServiceRegisterer sServiceRegisterer; static INfcTag sTagService; static INfcCardEmulation sCardEmulationService; static INfcFCardEmulation sNfcFCardEmulationService; /** * The NfcAdapter object for each application context. * There is a 1-1 relationship between application context and * NfcAdapter object. */ static HashMap sNfcAdapters = new HashMap(); //guard by NfcAdapter.class /** * NfcAdapter used with a null context. This ctor was deprecated but we have * to support it for backwards compatibility. New methods that require context * might throw when called on the null-context NfcAdapter. */ static NfcAdapter sNullContextNfcAdapter; // protected by NfcAdapter.class final NfcActivityManager mNfcActivityManager; final Context mContext; final HashMap mNfcUnlockHandlers; final Object mLock; final NfcOemExtension mNfcOemExtension; ITagRemovedCallback mTagRemovedListener; // protected by mLock /** * A callback to be invoked when the system finds a tag while the foreground activity is * operating in reader mode. *

Register your {@code ReaderCallback} implementation with {@link * NfcAdapter#enableReaderMode} and disable it with {@link * NfcAdapter#disableReaderMode}. * @see NfcAdapter#enableReaderMode */ public interface ReaderCallback { public void onTagDiscovered(Tag tag); } /** * A listener to be invoked when NFC controller always on state changes. *

Register your {@code ControllerAlwaysOnListener} implementation with {@link * NfcAdapter#registerControllerAlwaysOnListener} and disable it with {@link * NfcAdapter#unregisterControllerAlwaysOnListener}. * @see #registerControllerAlwaysOnListener * @hide */ @SystemApi public interface ControllerAlwaysOnListener { /** * Called on NFC controller always on state changes */ void onControllerAlwaysOnChanged(boolean isEnabled); } /** * A callback to be invoked when the system successfully delivers your {@link NdefMessage} * to another device. * @deprecated this feature is removed. File sharing can work using other technology like * Bluetooth. */ @java.lang.Deprecated public interface OnNdefPushCompleteCallback { /** * Called on successful NDEF push. * *

This callback is usually made on a binder thread (not the UI thread). * * @param event {@link NfcEvent} with the {@link NfcEvent#nfcAdapter} field set */ public void onNdefPushComplete(NfcEvent event); } /** * A callback to be invoked when another NFC device capable of NDEF push (Android Beam) * is within range. *

Implement this interface and pass it to {@code * NfcAdapter#setNdefPushMessageCallback setNdefPushMessageCallback()} in order to create an * {@link NdefMessage} at the moment that another device is within range for NFC. Using this * callback allows you to create a message with data that might vary based on the * content currently visible to the user. Alternatively, you can call {@code * #setNdefPushMessage setNdefPushMessage()} if the {@link NdefMessage} always contains the * same data. * @deprecated this feature is removed. File sharing can work using other technology like * Bluetooth. */ @java.lang.Deprecated public interface CreateNdefMessageCallback { /** * Called to provide a {@link NdefMessage} to push. * *

This callback is usually made on a binder thread (not the UI thread). * *

Called when this device is in range of another device * that might support NDEF push. It allows the application to * create the NDEF message only when it is required. * *

NDEF push cannot occur until this method returns, so do not * block for too long. * *

The Android operating system will usually show a system UI * on top of your activity during this time, so do not try to request * input from the user to complete the callback, or provide custom NDEF * push UI. The user probably will not see it. * * @param event {@link NfcEvent} with the {@link NfcEvent#nfcAdapter} field set * @return NDEF message to push, or null to not provide a message */ public NdefMessage createNdefMessage(NfcEvent event); } /** * @deprecated this feature is removed. File sharing can work using other technology like * Bluetooth. */ @java.lang.Deprecated public interface CreateBeamUrisCallback { public Uri[] createBeamUris(NfcEvent event); } /** * A callback that is invoked when a tag is removed from the field. * @see NfcAdapter#ignore */ public interface OnTagRemovedListener { void onTagRemoved(); } /** * A callback to be invoked when an application has registered as a * handler to unlock the device given an NFC tag at the lockscreen. * @hide */ @SystemApi public interface NfcUnlockHandler { /** * Called at the lock screen to attempt to unlock the device with the given tag. * @param tag the detected tag, to be used to unlock the device * @return true if the device was successfully unlocked */ public boolean onUnlockAttempted(Tag tag); } /** * Return list of Secure Elements which support off host card emulation. * * @return List containing secure elements on the device which supports * off host card emulation. eSE for Embedded secure element, * SIM for UICC and so on. * @hide */ public @NonNull List getSupportedOffHostSecureElements() { if (mContext == null) { throw new UnsupportedOperationException("You need a context on NfcAdapter to use the " + " getSupportedOffHostSecureElements APIs"); } List offHostSE = new ArrayList(); PackageManager pm = mContext.getPackageManager(); if (pm == null) { Log.e(TAG, "Cannot get package manager, assuming no off-host CE feature"); return offHostSE; } if (pm.hasSystemFeature(PackageManager.FEATURE_NFC_OFF_HOST_CARD_EMULATION_UICC)) { offHostSE.add("SIM"); } if (pm.hasSystemFeature(PackageManager.FEATURE_NFC_OFF_HOST_CARD_EMULATION_ESE)) { offHostSE.add("eSE"); } return offHostSE; } private static void retrieveServiceRegisterer() { if (sServiceRegisterer == null) { NfcServiceManager manager = NfcFrameworkInitializer.getNfcServiceManager(); if (manager == null) { Log.e(TAG, "NfcServiceManager is null"); throw new UnsupportedOperationException(); } sServiceRegisterer = manager.getNfcManagerServiceRegisterer(); } } /** * Returns the NfcAdapter for application context, * or throws if NFC is not available. * @hide */ @UnsupportedAppUsage public static synchronized NfcAdapter getNfcAdapter(Context context) { if (context == null) { if (sNullContextNfcAdapter == null) { sNullContextNfcAdapter = new NfcAdapter(null); } return sNullContextNfcAdapter; } if (!sIsInitialized) { PackageManager pm; pm = context.getPackageManager(); sHasNfcFeature = pm.hasSystemFeature(PackageManager.FEATURE_NFC); sHasCeFeature = pm.hasSystemFeature(PackageManager.FEATURE_NFC_HOST_CARD_EMULATION) || pm.hasSystemFeature(PackageManager.FEATURE_NFC_HOST_CARD_EMULATION_NFCF) || pm.hasSystemFeature(PackageManager.FEATURE_NFC_OFF_HOST_CARD_EMULATION_UICC) || pm.hasSystemFeature(PackageManager.FEATURE_NFC_OFF_HOST_CARD_EMULATION_ESE); sHasNfcWlcFeature = pm.hasSystemFeature(PackageManager.FEATURE_NFC_CHARGING); /* is this device meant to have NFC */ if (!sHasNfcFeature && !sHasCeFeature && !sHasNfcWlcFeature) { Log.v(TAG, "this device does not have NFC support"); throw new UnsupportedOperationException(); } retrieveServiceRegisterer(); sService = getServiceInterface(); if (sService == null) { Log.e(TAG, "could not retrieve NFC service"); throw new UnsupportedOperationException(); } if (sHasNfcFeature) { try { sTagService = sService.getNfcTagInterface(); } catch (RemoteException e) { sTagService = null; Log.e(TAG, "could not retrieve NFC Tag service"); throw new UnsupportedOperationException(); } } if (sHasCeFeature) { try { sNfcFCardEmulationService = sService.getNfcFCardEmulationInterface(); } catch (RemoteException e) { sNfcFCardEmulationService = null; Log.e(TAG, "could not retrieve NFC-F card emulation service"); throw new UnsupportedOperationException(); } try { sCardEmulationService = sService.getNfcCardEmulationInterface(); } catch (RemoteException e) { sCardEmulationService = null; Log.e(TAG, "could not retrieve card emulation service"); throw new UnsupportedOperationException(); } } sIsInitialized = true; } NfcAdapter adapter = sNfcAdapters.get(context); if (adapter == null) { adapter = new NfcAdapter(context); sNfcAdapters.put(context, adapter); } return adapter; } /** get handle to NFC service interface */ private static INfcAdapter getServiceInterface() { /* get a handle to NFC service */ IBinder b = sServiceRegisterer.get(); if (b == null) { return null; } return INfcAdapter.Stub.asInterface(b); } /** * Helper to get the default NFC Adapter. *

* Most Android devices will only have one NFC Adapter (NFC Controller). *

* This helper is the equivalent of: * 

     * NfcManager manager = (NfcManager) context.getSystemService(Context.NFC_SERVICE);
     * NfcAdapter adapter = manager.getDefaultAdapter();
* @param context the calling application's context * * @return the default NFC adapter, or null if no NFC adapter exists */ public static NfcAdapter getDefaultAdapter(Context context) { if (context == null) { throw new IllegalArgumentException("context cannot be null"); } context = context.getApplicationContext(); if (context == null) { throw new IllegalArgumentException( "context not associated with any application (using a mock context?)"); } retrieveServiceRegisterer(); if (sServiceRegisterer.tryGet() == null) { if (sIsInitialized) { synchronized (NfcAdapter.class) { /* Stale sService pointer */ if (sIsInitialized) sIsInitialized = false; } } return null; } /* Try to initialize the service */ NfcManager manager = (NfcManager) context.getSystemService(Context.NFC_SERVICE); if (manager == null) { // NFC not available return null; } return manager.getDefaultAdapter(); } /** * Legacy NfcAdapter getter, always use {@link #getDefaultAdapter(Context)} instead.

* This method was deprecated at API level 10 (Gingerbread MR1) because a context is required * for many NFC API methods. Those methods will fail when called on an NfcAdapter * object created from this method.

* @deprecated use {@link #getDefaultAdapter(Context)} * @hide */ @Deprecated @UnsupportedAppUsage public static NfcAdapter getDefaultAdapter() { // introduced in API version 9 (GB 2.3) // deprecated in API version 10 (GB 2.3.3) // removed from public API in version 16 (ICS MR2) // should maintain as a hidden API for binary compatibility for a little longer Log.w(TAG, "WARNING: NfcAdapter.getDefaultAdapter() is deprecated, use " + "NfcAdapter.getDefaultAdapter(Context) instead", new Exception()); return NfcAdapter.getNfcAdapter(null); } NfcAdapter(Context context) { mContext = context; mNfcActivityManager = new NfcActivityManager(this); mNfcUnlockHandlers = new HashMap(); mTagRemovedListener = null; mLock = new Object(); mControllerAlwaysOnListener = new NfcControllerAlwaysOnListener(getService()); mNfcWlcStateListener = new NfcWlcStateListener(getService()); mNfcVendorNciCallbackListener = new NfcVendorNciCallbackListener(getService()); mNfcOemExtension = new NfcOemExtension(mContext, this); } /** * @hide */ @UnsupportedAppUsage public Context getContext() { return mContext; } /** * Returns the binder interface to the service. * @hide */ @UnsupportedAppUsage public INfcAdapter getService() { isEnabled(); // NOP call to recover sService if it is stale return sService; } /** * Returns the binder interface to the tag service. * @hide */ public INfcTag getTagService() { isEnabled(); // NOP call to recover sTagService if it is stale return sTagService; } /** * Returns the binder interface to the card emulation service. * @hide */ public INfcCardEmulation getCardEmulationService() { isEnabled(); return sCardEmulationService; } /** * Returns the binder interface to the NFC-F card emulation service. * @hide */ public INfcFCardEmulation getNfcFCardEmulationService() { isEnabled(); return sNfcFCardEmulationService; } /** * Returns the binder interface to the NFC-DTA test interface. * @hide */ public INfcDta getNfcDtaInterface() { if (mContext == null) { throw new UnsupportedOperationException("You need a context on NfcAdapter to use the " + " NFC extras APIs"); } try { return sService.getNfcDtaInterface(mContext.getPackageName()); } catch (RemoteException e) { attemptDeadServiceRecovery(e); // Try one more time if (sService == null) { Log.e(TAG, "Failed to recover NFC Service."); return null; } try { return sService.getNfcDtaInterface(mContext.getPackageName()); } catch (RemoteException ee) { Log.e(TAG, "Failed to recover NFC Service."); } return null; } } /** * NFC service dead - attempt best effort recovery * @hide */ @UnsupportedAppUsage public void attemptDeadServiceRecovery(Exception e) { Log.e(TAG, "NFC service dead - attempting to recover", e); INfcAdapter service = getServiceInterface(); if (service == null) { Log.e(TAG, "could not retrieve NFC service during service recovery"); // nothing more can be done now, sService is still stale, we'll hit // this recovery path again later return; } // assigning to sService is not thread-safe, but this is best-effort code // and on a well-behaved system should never happen sService = service; if (sHasNfcFeature) { try { sTagService = service.getNfcTagInterface(); } catch (RemoteException ee) { sTagService = null; Log.e(TAG, "could not retrieve NFC tag service during service recovery"); // nothing more can be done now, sService is still stale, we'll hit // this recovery path again later return; } } if (sHasCeFeature) { try { sCardEmulationService = service.getNfcCardEmulationInterface(); } catch (RemoteException ee) { sCardEmulationService = null; Log.e(TAG, "could not retrieve NFC card emulation service during service recovery"); } try { sNfcFCardEmulationService = service.getNfcFCardEmulationInterface(); } catch (RemoteException ee) { sNfcFCardEmulationService = null; Log.e(TAG, "could not retrieve NFC-F card emulation service during service recovery"); } } return; } private boolean isCardEmulationEnabled() { if (sHasCeFeature) { return (sCardEmulationService != null || sNfcFCardEmulationService != null); } return false; } private boolean isTagReadingEnabled() { if (sHasNfcFeature) { return sTagService != null; } return false; } /** * Return true if this NFC Adapter has any features enabled. * *

If this method returns false, the NFC hardware is guaranteed not to * generate or respond to any NFC communication over its NFC radio. *

Applications can use this to check if NFC is enabled. Applications * can request Settings UI allowing the user to toggle NFC using: * 

startActivity(new Intent(Settings.ACTION_NFC_SETTINGS))
* * @see android.provider.Settings#ACTION_NFC_SETTINGS * @return true if this NFC Adapter has any features enabled */ public boolean isEnabled() { boolean serviceState = false; try { serviceState = sService.getState() == STATE_ON; } catch (RemoteException e) { attemptDeadServiceRecovery(e); // Try one more time if (sService == null) { Log.e(TAG, "Failed to recover NFC Service."); return false; } try { serviceState = sService.getState() == STATE_ON; } catch (RemoteException ee) { Log.e(TAG, "Failed to recover NFC Service."); } } return serviceState && (isTagReadingEnabled() || isCardEmulationEnabled() || sHasNfcWlcFeature); } /** * Return the state of this NFC Adapter. * *

Returns one of {@link #STATE_ON}, {@link #STATE_TURNING_ON}, * {@link #STATE_OFF}, {@link #STATE_TURNING_OFF}. * *

{@link #isEnabled()} is equivalent to * {@link #getAdapterState()} == {@link #STATE_ON} * * @return the current state of this NFC adapter * * @hide */ @SystemApi @FlaggedApi(Flags.FLAG_ENABLE_NFC_MAINLINE) public @AdapterState int getAdapterState() { try { return sService.getState(); } catch (RemoteException e) { attemptDeadServiceRecovery(e); // Try one more time if (sService == null) { Log.e(TAG, "Failed to recover NFC Service."); return NfcAdapter.STATE_OFF; } try { return sService.getState(); } catch (RemoteException ee) { Log.e(TAG, "Failed to recover NFC Service."); } return NfcAdapter.STATE_OFF; } } /** * Enable NFC hardware. * *

This call is asynchronous. Listen for * {@link #ACTION_ADAPTER_STATE_CHANGED} broadcasts to find out when the * operation is complete. * *

This API is only allowed to be called by system apps * or apps which are Device Owner or Profile Owner. * *

If this returns true, then either NFC is already on, or * a {@link #ACTION_ADAPTER_STATE_CHANGED} broadcast will be sent * to indicate a state transition. If this returns false, then * there is some problem that prevents an attempt to turn * NFC on (for example we are in airplane mode and NFC is not * toggleable in airplane mode on this platform). * */ @FlaggedApi(Flags.FLAG_NFC_STATE_CHANGE) @RequiresPermission(android.Manifest.permission.WRITE_SECURE_SETTINGS) public boolean enable() { try { return sService.enable(mContext.getPackageName()); } catch (RemoteException e) { attemptDeadServiceRecovery(e); // Try one more time if (sService == null) { Log.e(TAG, "Failed to recover NFC Service."); return false; } try { return sService.enable(mContext.getPackageName()); } catch (RemoteException ee) { Log.e(TAG, "Failed to recover NFC Service."); } return false; } } /** * Disable NFC hardware. * *

No NFC features will work after this call, and the hardware * will not perform or respond to any NFC communication. * *

This call is asynchronous. Listen for * {@link #ACTION_ADAPTER_STATE_CHANGED} broadcasts to find out when the * operation is complete. * *

This API is only allowed to be called by system apps * or apps which are Device Owner or Profile Owner. * *

If this returns true, then either NFC is already off, or * a {@link #ACTION_ADAPTER_STATE_CHANGED} broadcast will be sent * to indicate a state transition. If this returns false, then * there is some problem that prevents an attempt to turn * NFC off. * */ @FlaggedApi(Flags.FLAG_NFC_STATE_CHANGE) @RequiresPermission(android.Manifest.permission.WRITE_SECURE_SETTINGS) public boolean disable() { try { return sService.disable(true, mContext.getPackageName()); } catch (RemoteException e) { attemptDeadServiceRecovery(e); // Try one more time if (sService == null) { Log.e(TAG, "Failed to recover NFC Service."); return false; } try { return sService.disable(true, mContext.getPackageName()); } catch (RemoteException ee) { Log.e(TAG, "Failed to recover NFC Service."); } return false; } } /** * Disable NFC hardware. * @hide */ @SystemApi @RequiresPermission(android.Manifest.permission.WRITE_SECURE_SETTINGS) public boolean disable(boolean persist) { try { return sService.disable(persist, mContext.getPackageName()); } catch (RemoteException e) { attemptDeadServiceRecovery(e); // Try one more time if (sService == null) { Log.e(TAG, "Failed to recover NFC Service."); return false; } try { return sService.disable(persist, mContext.getPackageName()); } catch (RemoteException ee) { Log.e(TAG, "Failed to recover NFC Service."); } return false; } } /** * Pauses polling for a {@code timeoutInMs} millis. If polling must be resumed before timeout, * use {@link #resumePolling()}. * @hide */ public void pausePolling(int timeoutInMs) { try { sService.pausePolling(timeoutInMs); } catch (RemoteException e) { attemptDeadServiceRecovery(e); } } /** * Returns whether the device supports observer mode or not. When observe * mode is enabled, the NFC hardware will listen for NFC readers, but not * respond to them. When observe mode is disabled, the NFC hardware will * resoond to the reader and proceed with the transaction. * @return true if the mode is supported, false otherwise. */ @FlaggedApi(Flags.FLAG_NFC_OBSERVE_MODE) public boolean isObserveModeSupported() { try { return sService.isObserveModeSupported(); } catch (RemoteException e) { attemptDeadServiceRecovery(e); return false; } } /** * Returns whether Observe Mode is currently enabled or not. * * @return true if observe mode is enabled, false otherwise. */ @FlaggedApi(Flags.FLAG_NFC_OBSERVE_MODE) public boolean isObserveModeEnabled() { try { return sService.isObserveModeEnabled(); } catch (RemoteException e) { attemptDeadServiceRecovery(e); return false; } } /** * Controls whether the NFC adapter will allow transactions to proceed or be in observe mode * and simply observe and notify the APDU service of polling loop frames. See * {@link #isObserveModeSupported()} for a description of observe mode. Only the package of the * currently preferred service (the service set as preferred by the current foreground * application via {@link CardEmulation#setPreferredService(Activity, ComponentName)} or the * current Default Wallet Role Holder {@link android.app.role.RoleManager#ROLE_WALLET}), * otherwise a call to this method will fail and return false. * * @param enabled false disables observe mode to allow the transaction to proceed while true * enables observe mode and does not allow transactions to proceed. * * @return boolean indicating success or failure. */ @FlaggedApi(Flags.FLAG_NFC_OBSERVE_MODE) public boolean setObserveModeEnabled(boolean enabled) { if (mContext == null) { throw new UnsupportedOperationException("You need a context on NfcAdapter to use the " + " observe mode APIs"); } try { return sService.setObserveMode(enabled, mContext.getPackageName()); } catch (RemoteException e) { attemptDeadServiceRecovery(e); return false; } } /** * Resumes default polling for the current device state if polling is paused. Calling * this while polling is not paused is a no-op. * * @hide */ public void resumePolling() { try { sService.resumePolling(); } catch (RemoteException e) { attemptDeadServiceRecovery(e); } } /** * Set one or more {@link Uri}s to send using Android Beam (TM). Every * Uri you provide must have either scheme 'file' or scheme 'content'. * *

For the data provided through this method, Android Beam tries to * switch to alternate transports such as Bluetooth to achieve a fast * transfer speed. Hence this method is very suitable * for transferring large files such as pictures or songs. * *

The receiving side will store the content of each Uri in * a file and present a notification to the user to open the file * with a {@link android.content.Intent} with action * {@link android.content.Intent#ACTION_VIEW}. * If multiple URIs are sent, the {@link android.content.Intent} will refer * to the first of the stored files. * *

This method may be called at any time before {@link Activity#onDestroy}, * but the URI(s) are only made available for Android Beam when the * specified activity(s) are in resumed (foreground) state. The recommended * approach is to call this method during your Activity's * {@link Activity#onCreate} - see sample * code below. This method does not immediately perform any I/O or blocking work, * so is safe to call on your main thread. * *

{@link #setBeamPushUris} and {@link #setBeamPushUrisCallback} * have priority over both {@link #setNdefPushMessage} and * {@link #setNdefPushMessageCallback}. * *

If {@link #setBeamPushUris} is called with a null Uri array, * and/or {@link #setBeamPushUrisCallback} is called with a null callback, * then the Uri push will be completely disabled for the specified activity(s). * *

Code example: * 

     * protected void onCreate(Bundle savedInstanceState) {
     *     super.onCreate(savedInstanceState);
     *     NfcAdapter nfcAdapter = NfcAdapter.getDefaultAdapter(this);
     *     if (nfcAdapter == null) return;  // NFC not available on this device
     *     nfcAdapter.setBeamPushUris(new Uri[] {uri1, uri2}, this);
     * }
* And that is it. Only one call per activity is necessary. The Android * OS will automatically release its references to the Uri(s) and the * Activity object when it is destroyed if you follow this pattern. * *

If your Activity wants to dynamically supply Uri(s), * then set a callback using {@link #setBeamPushUrisCallback} instead * of using this method. * *

Do not pass in an Activity that has already been through * {@link Activity#onDestroy}. This is guaranteed if you call this API * during {@link Activity#onCreate}. * *

If this device does not support alternate transports * such as Bluetooth or WiFI, calling this method does nothing. * *

Requires the {@link android.Manifest.permission#NFC} permission. * * @param uris an array of Uri(s) to push over Android Beam * @param activity activity for which the Uri(s) will be pushed * @throws UnsupportedOperationException if FEATURE_NFC is unavailable. * @removed this feature is removed. File sharing can work using other technology like * Bluetooth. */ @java.lang.Deprecated @UnsupportedAppUsage public void setBeamPushUris(Uri[] uris, Activity activity) { synchronized (sLock) { if (!sHasNfcFeature) { throw new UnsupportedOperationException(); } } } /** * Set a callback that will dynamically generate one or more {@link Uri}s * to send using Android Beam (TM). Every Uri the callback provides * must have either scheme 'file' or scheme 'content'. * *

For the data provided through this callback, Android Beam tries to * switch to alternate transports such as Bluetooth to achieve a fast * transfer speed. Hence this method is very suitable * for transferring large files such as pictures or songs. * *

The receiving side will store the content of each Uri in * a file and present a notification to the user to open the file * with a {@link android.content.Intent} with action * {@link android.content.Intent#ACTION_VIEW}. * If multiple URIs are sent, the {@link android.content.Intent} will refer * to the first of the stored files. * *

This method may be called at any time before {@link Activity#onDestroy}, * but the URI(s) are only made available for Android Beam when the * specified activity(s) are in resumed (foreground) state. The recommended * approach is to call this method during your Activity's * {@link Activity#onCreate} - see sample * code below. This method does not immediately perform any I/O or blocking work, * so is safe to call on your main thread. * *

{@link #setBeamPushUris} and {@link #setBeamPushUrisCallback} * have priority over both {@link #setNdefPushMessage} and * {@link #setNdefPushMessageCallback}. * *

If {@link #setBeamPushUris} is called with a null Uri array, * and/or {@link #setBeamPushUrisCallback} is called with a null callback, * then the Uri push will be completely disabled for the specified activity(s). * *

Code example: * 

     * protected void onCreate(Bundle savedInstanceState) {
     *     super.onCreate(savedInstanceState);
     *     NfcAdapter nfcAdapter = NfcAdapter.getDefaultAdapter(this);
     *     if (nfcAdapter == null) return;  // NFC not available on this device
     *     nfcAdapter.setBeamPushUrisCallback(callback, this);
     * }
* And that is it. Only one call per activity is necessary. The Android * OS will automatically release its references to the Uri(s) and the * Activity object when it is destroyed if you follow this pattern. * *

Do not pass in an Activity that has already been through * {@link Activity#onDestroy}. This is guaranteed if you call this API * during {@link Activity#onCreate}. * *

If this device does not support alternate transports * such as Bluetooth or WiFI, calling this method does nothing. * *

Requires the {@link android.Manifest.permission#NFC} permission. * * @param callback callback, or null to disable * @param activity activity for which the Uri(s) will be pushed * @throws UnsupportedOperationException if FEATURE_NFC is unavailable. * @removed this feature is removed. File sharing can work using other technology like * Bluetooth. */ @java.lang.Deprecated @UnsupportedAppUsage public void setBeamPushUrisCallback(CreateBeamUrisCallback callback, Activity activity) { synchronized (sLock) { if (!sHasNfcFeature) { throw new UnsupportedOperationException(); } } } /** * Set a static {@link NdefMessage} to send using Android Beam (TM). * *

This method may be called at any time before {@link Activity#onDestroy}, * but the NDEF message is only made available for NDEF push when the * specified activity(s) are in resumed (foreground) state. The recommended * approach is to call this method during your Activity's * {@link Activity#onCreate} - see sample * code below. This method does not immediately perform any I/O or blocking work, * so is safe to call on your main thread. * *

Only one NDEF message can be pushed by the currently resumed activity. * If both {@link #setNdefPushMessage} and * {@link #setNdefPushMessageCallback} are set, then * the callback will take priority. * *

If neither {@link #setNdefPushMessage} or * {@link #setNdefPushMessageCallback} have been called for your activity, then * the Android OS may choose to send a default NDEF message on your behalf, * such as a URI for your application. * *

If {@link #setNdefPushMessage} is called with a null NDEF message, * and/or {@link #setNdefPushMessageCallback} is called with a null callback, * then NDEF push will be completely disabled for the specified activity(s). * This also disables any default NDEF message the Android OS would have * otherwise sent on your behalf for those activity(s). * *

If you want to prevent the Android OS from sending default NDEF * messages completely (for all activities), you can include a * {@code } element inside the {@code } * element of your AndroidManifest.xml file, like this: * 

     * <application ...>
     *     <meta-data android:name="android.nfc.disable_beam_default"
     *         android:value="true" />
     * </application>
* *

The API allows for multiple activities to be specified at a time, * but it is strongly recommended to just register one at a time, * and to do so during the activity's {@link Activity#onCreate}. For example: * 

     * protected void onCreate(Bundle savedInstanceState) {
     *     super.onCreate(savedInstanceState);
     *     NfcAdapter nfcAdapter = NfcAdapter.getDefaultAdapter(this);
     *     if (nfcAdapter == null) return;  // NFC not available on this device
     *     nfcAdapter.setNdefPushMessage(ndefMessage, this);
     * }
* And that is it. Only one call per activity is necessary. The Android * OS will automatically release its references to the NDEF message and the * Activity object when it is destroyed if you follow this pattern. * *

If your Activity wants to dynamically generate an NDEF message, * then set a callback using {@link #setNdefPushMessageCallback} instead * of a static message. * *

Do not pass in an Activity that has already been through * {@link Activity#onDestroy}. This is guaranteed if you call this API * during {@link Activity#onCreate}. * *

For sending large content such as pictures and songs, * consider using {@link #setBeamPushUris}, which switches to alternate transports * such as Bluetooth to achieve a fast transfer rate. * *

Requires the {@link android.Manifest.permission#NFC} permission. * * @param message NDEF message to push over NFC, or null to disable * @param activity activity for which the NDEF message will be pushed * @param activities optional additional activities, however we strongly recommend * to only register one at a time, and to do so in that activity's * {@link Activity#onCreate} * @throws UnsupportedOperationException if FEATURE_NFC is unavailable. * @removed this feature is removed. File sharing can work using other technology like * Bluetooth. */ @java.lang.Deprecated @UnsupportedAppUsage public void setNdefPushMessage(NdefMessage message, Activity activity, Activity ... activities) { synchronized (sLock) { if (!sHasNfcFeature) { throw new UnsupportedOperationException(); } } } /** * @hide * @removed */ @SystemApi @UnsupportedAppUsage public void setNdefPushMessage(NdefMessage message, Activity activity, int flags) { synchronized (sLock) { if (!sHasNfcFeature) { throw new UnsupportedOperationException(); } } } /** * Set a callback that dynamically generates NDEF messages to send using Android Beam (TM). * *

This method may be called at any time before {@link Activity#onDestroy}, * but the NDEF message callback can only occur when the * specified activity(s) are in resumed (foreground) state. The recommended * approach is to call this method during your Activity's * {@link Activity#onCreate} - see sample * code below. This method does not immediately perform any I/O or blocking work, * so is safe to call on your main thread. * *

Only one NDEF message can be pushed by the currently resumed activity. * If both {@link #setNdefPushMessage} and * {@link #setNdefPushMessageCallback} are set, then * the callback will take priority. * *

If neither {@link #setNdefPushMessage} or * {@link #setNdefPushMessageCallback} have been called for your activity, then * the Android OS may choose to send a default NDEF message on your behalf, * such as a URI for your application. * *

If {@link #setNdefPushMessage} is called with a null NDEF message, * and/or {@link #setNdefPushMessageCallback} is called with a null callback, * then NDEF push will be completely disabled for the specified activity(s). * This also disables any default NDEF message the Android OS would have * otherwise sent on your behalf for those activity(s). * *

If you want to prevent the Android OS from sending default NDEF * messages completely (for all activities), you can include a * {@code } element inside the {@code } * element of your AndroidManifest.xml file, like this: * 

     * <application ...>
     *     <meta-data android:name="android.nfc.disable_beam_default"
     *         android:value="true" />
     * </application>
* *

The API allows for multiple activities to be specified at a time, * but it is strongly recommended to just register one at a time, * and to do so during the activity's {@link Activity#onCreate}. For example: * 

     * protected void onCreate(Bundle savedInstanceState) {
     *     super.onCreate(savedInstanceState);
     *     NfcAdapter nfcAdapter = NfcAdapter.getDefaultAdapter(this);
     *     if (nfcAdapter == null) return;  // NFC not available on this device
     *     nfcAdapter.setNdefPushMessageCallback(callback, this);
     * }
* And that is it. Only one call per activity is necessary. The Android * OS will automatically release its references to the callback and the * Activity object when it is destroyed if you follow this pattern. * *

Do not pass in an Activity that has already been through * {@link Activity#onDestroy}. This is guaranteed if you call this API * during {@link Activity#onCreate}. *

For sending large content such as pictures and songs, * consider using {@link #setBeamPushUris}, which switches to alternate transports * such as Bluetooth to achieve a fast transfer rate. *

Requires the {@link android.Manifest.permission#NFC} permission. * * @param callback callback, or null to disable * @param activity activity for which the NDEF message will be pushed * @param activities optional additional activities, however we strongly recommend * to only register one at a time, and to do so in that activity's * {@link Activity#onCreate} * @throws UnsupportedOperationException if FEATURE_NFC is unavailable. * @removed this feature is removed. File sharing can work using other technology like * Bluetooth. */ @java.lang.Deprecated @UnsupportedAppUsage public void setNdefPushMessageCallback(CreateNdefMessageCallback callback, Activity activity, Activity ... activities) { synchronized (sLock) { if (!sHasNfcFeature) { throw new UnsupportedOperationException(); } } } /** * Set a callback on successful Android Beam (TM). * *

This method may be called at any time before {@link Activity#onDestroy}, * but the callback can only occur when the * specified activity(s) are in resumed (foreground) state. The recommended * approach is to call this method during your Activity's * {@link Activity#onCreate} - see sample * code below. This method does not immediately perform any I/O or blocking work, * so is safe to call on your main thread. * *

The API allows for multiple activities to be specified at a time, * but it is strongly recommended to just register one at a time, * and to do so during the activity's {@link Activity#onCreate}. For example: * 

     * protected void onCreate(Bundle savedInstanceState) {
     *     super.onCreate(savedInstanceState);
     *     NfcAdapter nfcAdapter = NfcAdapter.getDefaultAdapter(this);
     *     if (nfcAdapter == null) return;  // NFC not available on this device
     *     nfcAdapter.setOnNdefPushCompleteCallback(callback, this);
     * }
* And that is it. Only one call per activity is necessary. The Android * OS will automatically release its references to the callback and the * Activity object when it is destroyed if you follow this pattern. * *

Do not pass in an Activity that has already been through * {@link Activity#onDestroy}. This is guaranteed if you call this API * during {@link Activity#onCreate}. * *

Requires the {@link android.Manifest.permission#NFC} permission. * * @param callback callback, or null to disable * @param activity activity for which the NDEF message will be pushed * @param activities optional additional activities, however we strongly recommend * to only register one at a time, and to do so in that activity's * {@link Activity#onCreate} * @throws UnsupportedOperationException if FEATURE_NFC is unavailable. * @removed this feature is removed. File sharing can work using other technology like * Bluetooth. */ @java.lang.Deprecated @UnsupportedAppUsage public void setOnNdefPushCompleteCallback(OnNdefPushCompleteCallback callback, Activity activity, Activity ... activities) { synchronized (sLock) { if (!sHasNfcFeature) { throw new UnsupportedOperationException(); } } } /** * Enable foreground dispatch to the given Activity. * *

This will give priority to the foreground activity when * dispatching a discovered {@link Tag} to an application. * *

If any IntentFilters are provided to this method they are used to match dispatch Intents * for both the {@link NfcAdapter#ACTION_NDEF_DISCOVERED} and * {@link NfcAdapter#ACTION_TAG_DISCOVERED}. Since {@link NfcAdapter#ACTION_TECH_DISCOVERED} * relies on meta data outside of the IntentFilter matching for that dispatch Intent is handled * by passing in the tech lists separately. Each first level entry in the tech list represents * an array of technologies that must all be present to match. If any of the first level sets * match then the dispatch is routed through the given PendingIntent. In other words, the second * level is ANDed together and the first level entries are ORed together. * *

If you pass {@code null} for both the {@code filters} and {@code techLists} parameters * that acts a wild card and will cause the foreground activity to receive all tags via the * {@link NfcAdapter#ACTION_TAG_DISCOVERED} intent. * *

This method must be called from the main thread, and only when the activity is in the * foreground (resumed). Also, activities must call {@link #disableForegroundDispatch} before * the completion of their {@link Activity#onPause} callback to disable foreground dispatch * after it has been enabled. * *

Requires the {@link android.Manifest.permission#NFC} permission. * * @param activity the Activity to dispatch to * @param intent the PendingIntent to start for the dispatch * @param filters the IntentFilters to override dispatching for, or null to always dispatch * @param techLists the tech lists used to perform matching for dispatching of the * {@link NfcAdapter#ACTION_TECH_DISCOVERED} intent * @throws IllegalStateException if the Activity is not currently in the foreground * @throws UnsupportedOperationException if FEATURE_NFC is unavailable. */ public void enableForegroundDispatch(Activity activity, PendingIntent intent, IntentFilter[] filters, String[][] techLists) { synchronized (sLock) { if (!sHasNfcFeature) { throw new UnsupportedOperationException(); } } if (activity == null || intent == null) { throw new NullPointerException(); } try { TechListParcel parcel = null; if (techLists != null && techLists.length > 0) { parcel = new TechListParcel(techLists); } sService.setForegroundDispatch(intent, filters, parcel); } catch (RemoteException e) { attemptDeadServiceRecovery(e); } } /** * Disable foreground dispatch to the given activity. * *

After calling {@link #enableForegroundDispatch}, an activity * must call this method before its {@link Activity#onPause} callback * completes. * *

This method must be called from the main thread. * *

Requires the {@link android.Manifest.permission#NFC} permission. * * @param activity the Activity to disable dispatch to * @throws IllegalStateException if the Activity has already been paused * @throws UnsupportedOperationException if FEATURE_NFC is unavailable. */ public void disableForegroundDispatch(Activity activity) { synchronized (sLock) { if (!sHasNfcFeature) { throw new UnsupportedOperationException(); } } try { sService.setForegroundDispatch(null, null, null); } catch (RemoteException e) { attemptDeadServiceRecovery(e); } } /** * Limit the NFC controller to reader mode while this Activity is in the foreground. * *

In this mode the NFC controller will only act as an NFC tag reader/writer, * thus disabling any peer-to-peer (Android Beam) and card-emulation modes of * the NFC adapter on this device. * *

Use {@link #FLAG_READER_SKIP_NDEF_CHECK} to prevent the platform from * performing any NDEF checks in reader mode. Note that this will prevent the * {@link Ndef} tag technology from being enumerated on the tag, and that * NDEF-based tag dispatch will not be functional. * *

For interacting with tags that are emulated on another Android device * using Android's host-based card-emulation, the recommended flags are * {@link #FLAG_READER_NFC_A} and {@link #FLAG_READER_SKIP_NDEF_CHECK}. * * @param activity the Activity that requests the adapter to be in reader mode * @param callback the callback to be called when a tag is discovered * @param flags Flags indicating poll technologies and other optional parameters * @param extras Additional extras for configuring reader mode. * @throws UnsupportedOperationException if FEATURE_NFC is unavailable. */ public void enableReaderMode(Activity activity, ReaderCallback callback, int flags, Bundle extras) { synchronized (sLock) { if (!sHasNfcFeature) { throw new UnsupportedOperationException(); } } mNfcActivityManager.enableReaderMode(activity, callback, flags, extras); } /** * Restore the NFC adapter to normal mode of operation: supporting * peer-to-peer (Android Beam), card emulation, and polling for * all supported tag technologies. * * @param activity the Activity that currently has reader mode enabled * @throws UnsupportedOperationException if FEATURE_NFC is unavailable. */ public void disableReaderMode(Activity activity) { synchronized (sLock) { if (!sHasNfcFeature) { throw new UnsupportedOperationException(); } } mNfcActivityManager.disableReaderMode(activity); } // Flags arguments to NFC adapter to enable/disable NFC private static final int DISABLE_POLLING_FLAGS = 0x1000; private static final int ENABLE_POLLING_FLAGS = 0x0000; /** * Privileged API to enable or disable reader polling. * Unlike {@link #enableReaderMode(Activity, ReaderCallback, int, Bundle)}, this API does not * need a foreground activity to control reader mode parameters * Note: Use with caution! The app is responsible for ensuring that the polling state is * returned to normal. * * @see #enableReaderMode(Activity, ReaderCallback, int, Bundle) for more detailed * documentation. * * @param enablePolling whether to enable or disable polling. * @hide */ @SystemApi @RequiresPermission(android.Manifest.permission.WRITE_SECURE_SETTINGS) @FlaggedApi(Flags.FLAG_ENABLE_NFC_MAINLINE) @SuppressLint("VisiblySynchronized") public void setReaderModePollingEnabled(boolean enable) { synchronized (sLock) { if (!sHasNfcFeature) { throw new UnsupportedOperationException(); } } Binder token = new Binder(); int flags = enable ? ENABLE_POLLING_FLAGS : DISABLE_POLLING_FLAGS; try { NfcAdapter.sService.setReaderMode(token, null, flags, null); } catch (RemoteException e) { attemptDeadServiceRecovery(e); } } /** * Set the NFC controller to enable specific poll/listen technologies, * as specified in parameters, while this Activity is in the foreground. * * Use {@link #FLAG_READER_KEEP} to keep current polling technology. * Use {@link #FLAG_LISTEN_KEEP} to keep current listenig technology. * (if the _KEEP flag is specified the other technology flags shouldn't be set * and are quietly ignored otherwise). * Use {@link #FLAG_READER_DISABLE} to disable polling. * Use {@link #FLAG_LISTEN_DISABLE} to disable listening. * Also refer to {@link #resetDiscoveryTechnology(Activity)} to restore these changes. *

* The pollTechnology, listenTechnology parameters can be one or several of below list. * 
     *                    Poll                    Listen
     *  Passive A         0x01   (NFC_A)           0x01  (NFC_PASSIVE_A)
     *  Passive B         0x02   (NFC_B)           0x02  (NFC_PASSIVE_B)
     *  Passive F         0x04   (NFC_F)           0x04  (NFC_PASSIVE_F)
     *  ISO 15693         0x08   (NFC_V)             -
     *  Kovio             0x10   (NFC_BARCODE)       -
     *
*

Example usage in an Activity that requires to disable poll, * keep current listen technologies: * 

     * protected void onResume() {
     *     mNfcAdapter = NfcAdapter.getDefaultAdapter(getApplicationContext());
     *     mNfcAdapter.setDiscoveryTechnology(this,
     *         NfcAdapter.FLAG_READER_DISABLE, NfcAdapter.FLAG_LISTEN_KEEP);
     * }

* @param activity The Activity that requests NFC controller to enable specific technologies. * @param pollTechnology Flags indicating poll technologies. * @param listenTechnology Flags indicating listen technologies. * @throws UnsupportedOperationException if FEATURE_NFC, * FEATURE_NFC_HOST_CARD_EMULATION, FEATURE_NFC_HOST_CARD_EMULATION_NFCF are unavailable. */ @FlaggedApi(Flags.FLAG_ENABLE_NFC_SET_DISCOVERY_TECH) public void setDiscoveryTechnology(@NonNull Activity activity, @PollTechnology int pollTechnology, @ListenTechnology int listenTechnology) { // A special treatment of the _KEEP flags if ((listenTechnology & FLAG_LISTEN_KEEP) != 0) { listenTechnology = -1; } if ((pollTechnology & FLAG_READER_KEEP) != 0) { pollTechnology = -1; } if (listenTechnology == FLAG_LISTEN_DISABLE) { synchronized (sLock) { if (!sHasNfcFeature) { throw new UnsupportedOperationException(); } } } else if (pollTechnology == FLAG_READER_DISABLE) { synchronized (sLock) { if (!sHasCeFeature) { throw new UnsupportedOperationException(); } } } else { synchronized (sLock) { if (!sHasNfcFeature || !sHasCeFeature) { throw new UnsupportedOperationException(); } } } mNfcActivityManager.setDiscoveryTech(activity, pollTechnology, listenTechnology); } /** * Restore the poll/listen technologies of NFC controller to its default state, * which were changed by {@link #setDiscoveryTechnology(Activity , int , int)} * * @param activity The Activity that requested to change technologies. */ @FlaggedApi(Flags.FLAG_ENABLE_NFC_SET_DISCOVERY_TECH) public void resetDiscoveryTechnology(@NonNull Activity activity) { mNfcActivityManager.resetDiscoveryTech(activity); } /** * Manually invoke Android Beam to share data. * *

The Android Beam animation is normally only shown when two NFC-capable * devices come into range. * By calling this method, an Activity can invoke the Beam animation directly * even if no other NFC device is in range yet. The Beam animation will then * prompt the user to tap another NFC-capable device to complete the data * transfer. * *

The main advantage of using this method is that it avoids the need for the * user to tap the screen to complete the transfer, as this method already * establishes the direction of the transfer and the consent of the user to * share data. Callers are responsible for making sure that the user has * consented to sharing data on NFC tap. * *

Note that to use this method, the passed in Activity must have already * set data to share over Beam by using method calls such as * {@link #setNdefPushMessageCallback} or * {@link #setBeamPushUrisCallback}. * * @param activity the current foreground Activity that has registered data to share * @return whether the Beam animation was successfully invoked * @throws UnsupportedOperationException if FEATURE_NFC is unavailable. * @removed this feature is removed. File sharing can work using other technology like * Bluetooth. */ @java.lang.Deprecated @UnsupportedAppUsage public boolean invokeBeam(Activity activity) { synchronized (sLock) { if (!sHasNfcFeature) { throw new UnsupportedOperationException(); } } return false; } /** * Enable NDEF message push over NFC while this Activity is in the foreground. * *

You must explicitly call this method every time the activity is * resumed, and you must call {@link #disableForegroundNdefPush} before * your activity completes {@link Activity#onPause}. * *

Strongly recommend to use the new {@link #setNdefPushMessage} * instead: it automatically hooks into your activity life-cycle, * so you do not need to call enable/disable in your onResume/onPause. * *

For NDEF push to function properly the other NFC device must * support either NFC Forum's SNEP (Simple Ndef Exchange Protocol), or * Android's "com.android.npp" (Ndef Push Protocol). This was optional * on Gingerbread level Android NFC devices, but SNEP is mandatory on * Ice-Cream-Sandwich and beyond. * *

This method must be called from the main thread. * *

Requires the {@link android.Manifest.permission#NFC} permission. * * @param activity foreground activity * @param message a NDEF Message to push over NFC * @throws UnsupportedOperationException if FEATURE_NFC is unavailable * @removed this feature is removed. File sharing can work using other technology like * Bluetooth. */ @Deprecated @UnsupportedAppUsage public void enableForegroundNdefPush(Activity activity, NdefMessage message) { synchronized (sLock) { if (!sHasNfcFeature) { throw new UnsupportedOperationException(); } } } /** * Disable NDEF message push over P2P. * *

After calling {@link #enableForegroundNdefPush}, an activity * must call this method before its {@link Activity#onPause} callback * completes. * *

Strongly recommend to use the new {@link #setNdefPushMessage} * instead: it automatically hooks into your activity life-cycle, * so you do not need to call enable/disable in your onResume/onPause. * *

This method must be called from the main thread. * *

Requires the {@link android.Manifest.permission#NFC} permission. * * @param activity the Foreground activity * @throws UnsupportedOperationException if FEATURE_NFC is unavailable * @removed this feature is removed. File sharing can work using other technology like * Bluetooth. */ @Deprecated @UnsupportedAppUsage public void disableForegroundNdefPush(Activity activity) { synchronized (sLock) { if (!sHasNfcFeature) { throw new UnsupportedOperationException(); } } } /** * Sets Secure NFC feature. *

This API is for the Settings application. * @return True if successful * @hide */ @SystemApi @RequiresPermission(android.Manifest.permission.WRITE_SECURE_SETTINGS) public boolean enableSecureNfc(boolean enable) { if (!sHasNfcFeature && !sHasCeFeature) { throw new UnsupportedOperationException(); } try { return sService.setNfcSecure(enable); } catch (RemoteException e) { attemptDeadServiceRecovery(e); // Try one more time if (sService == null) { Log.e(TAG, "Failed to recover NFC Service."); return false; } try { return sService.setNfcSecure(enable); } catch (RemoteException ee) { Log.e(TAG, "Failed to recover NFC Service."); } return false; } } /** * Checks if the device supports Secure NFC functionality. * * @return True if device supports Secure NFC, false otherwise * @throws UnsupportedOperationException if FEATURE_NFC, * FEATURE_NFC_HOST_CARD_EMULATION, FEATURE_NFC_HOST_CARD_EMULATION_NFCF, * FEATURE_NFC_OFF_HOST_CARD_EMULATION_UICC and FEATURE_NFC_OFF_HOST_CARD_EMULATION_ESE * are unavailable */ public boolean isSecureNfcSupported() { if (!sHasNfcFeature && !sHasCeFeature) { throw new UnsupportedOperationException(); } try { return sService.deviceSupportsNfcSecure(); } catch (RemoteException e) { attemptDeadServiceRecovery(e); // Try one more time if (sService == null) { Log.e(TAG, "Failed to recover NFC Service."); return false; } try { return sService.deviceSupportsNfcSecure(); } catch (RemoteException ee) { Log.e(TAG, "Failed to recover NFC Service."); } return false; } } /** * Returns information regarding Nfc antennas on the device * such as their relative positioning on the device. * * @return Information on the nfc antenna(s) on the device. * @throws UnsupportedOperationException if FEATURE_NFC, * FEATURE_NFC_HOST_CARD_EMULATION, FEATURE_NFC_HOST_CARD_EMULATION_NFCF, * FEATURE_NFC_OFF_HOST_CARD_EMULATION_UICC and FEATURE_NFC_OFF_HOST_CARD_EMULATION_ESE * are unavailable */ @Nullable public NfcAntennaInfo getNfcAntennaInfo() { if (!sHasNfcFeature && !sHasCeFeature) { throw new UnsupportedOperationException(); } try { return sService.getNfcAntennaInfo(); } catch (RemoteException e) { attemptDeadServiceRecovery(e); // Try one more time if (sService == null) { Log.e(TAG, "Failed to recover NFC Service."); return null; } try { return sService.getNfcAntennaInfo(); } catch (RemoteException ee) { Log.e(TAG, "Failed to recover NFC Service."); } return null; } } /** * Checks Secure NFC feature is enabled. * * @return True if Secure NFC is enabled, false otherwise * @throws UnsupportedOperationException if FEATURE_NFC, * FEATURE_NFC_HOST_CARD_EMULATION, FEATURE_NFC_HOST_CARD_EMULATION_NFCF, * FEATURE_NFC_OFF_HOST_CARD_EMULATION_UICC and FEATURE_NFC_OFF_HOST_CARD_EMULATION_ESE * are unavailable * @throws UnsupportedOperationException if device doesn't support * Secure NFC functionality. {@link #isSecureNfcSupported} */ public boolean isSecureNfcEnabled() { if (!sHasNfcFeature && !sHasCeFeature) { throw new UnsupportedOperationException(); } try { return sService.isNfcSecureEnabled(); } catch (RemoteException e) { attemptDeadServiceRecovery(e); // Try one more time if (sService == null) { Log.e(TAG, "Failed to recover NFC Service."); return false; } try { return sService.isNfcSecureEnabled(); } catch (RemoteException ee) { Log.e(TAG, "Failed to recover NFC Service."); } return false; } } /** * Sets NFC Reader option feature. *

This API is for the Settings application. * @return True if successful * @hide */ @SystemApi @FlaggedApi(Flags.FLAG_ENABLE_NFC_READER_OPTION) @RequiresPermission(android.Manifest.permission.WRITE_SECURE_SETTINGS) public boolean enableReaderOption(boolean enable) { if (!sHasNfcFeature) { throw new UnsupportedOperationException(); } try { return sService.enableReaderOption(enable); } catch (RemoteException e) { attemptDeadServiceRecovery(e); // Try one more time if (sService == null) { Log.e(TAG, "Failed to recover NFC Service."); return false; } try { return sService.enableReaderOption(enable); } catch (RemoteException ee) { Log.e(TAG, "Failed to recover NFC Service."); } return false; } } /** * Checks if the device supports NFC Reader option functionality. * * @return True if device supports NFC Reader option, false otherwise * @throws UnsupportedOperationException if FEATURE_NFC is unavailable. */ @FlaggedApi(Flags.FLAG_ENABLE_NFC_READER_OPTION) public boolean isReaderOptionSupported() { if (!sHasNfcFeature) { throw new UnsupportedOperationException(); } try { return sService.isReaderOptionSupported(); } catch (RemoteException e) { attemptDeadServiceRecovery(e); // Try one more time if (sService == null) { Log.e(TAG, "Failed to recover NFC Service."); return false; } try { return sService.isReaderOptionSupported(); } catch (RemoteException ee) { Log.e(TAG, "Failed to recover NFC Service."); } return false; } } /** * Checks NFC Reader option feature is enabled. * * @return True if NFC Reader option is enabled, false otherwise * @throws UnsupportedOperationException if FEATURE_NFC is unavailable. * @throws UnsupportedOperationException if device doesn't support * NFC Reader option functionality. {@link #isReaderOptionSupported} */ @FlaggedApi(Flags.FLAG_ENABLE_NFC_READER_OPTION) public boolean isReaderOptionEnabled() { if (!sHasNfcFeature) { throw new UnsupportedOperationException(); } try { return sService.isReaderOptionEnabled(); } catch (RemoteException e) { attemptDeadServiceRecovery(e); // Try one more time if (sService == null) { Log.e(TAG, "Failed to recover NFC Service."); return false; } try { return sService.isReaderOptionEnabled(); } catch (RemoteException ee) { Log.e(TAG, "Failed to recover NFC Service."); } return false; } } /** * Enable NDEF Push feature. *

This API is for the Settings application. * @hide * @removed */ @SystemApi @RequiresPermission(android.Manifest.permission.WRITE_SECURE_SETTINGS) @UnsupportedAppUsage public boolean enableNdefPush() { return false; } /** * Disable NDEF Push feature. *

This API is for the Settings application. * @hide * @removed */ @SystemApi @RequiresPermission(android.Manifest.permission.WRITE_SECURE_SETTINGS) @UnsupportedAppUsage public boolean disableNdefPush() { return false; } /** * Return true if the NDEF Push (Android Beam) feature is enabled. *

This function will return true only if both NFC is enabled, and the * NDEF Push feature is enabled. *

Note that if NFC is enabled but NDEF Push is disabled then this * device can still receive NDEF messages, it just cannot send them. *

Applications cannot directly toggle the NDEF Push feature, but they * can request Settings UI allowing the user to toggle NDEF Push using * startActivity(new Intent(Settings.ACTION_NFCSHARING_SETTINGS)) *

Example usage in an Activity that requires NDEF Push: * 

     * protected void onResume() {
     *     super.onResume();
     *     if (!nfcAdapter.isEnabled()) {
     *         startActivity(new Intent(Settings.ACTION_NFC_SETTINGS));
     *     } else if (!nfcAdapter.isNdefPushEnabled()) {
     *         startActivity(new Intent(Settings.ACTION_NFCSHARING_SETTINGS));
     *     }
     * }
* * @see android.provider.Settings#ACTION_NFCSHARING_SETTINGS * @return true if NDEF Push feature is enabled * @throws UnsupportedOperationException if FEATURE_NFC is unavailable. * @removed this feature is removed. File sharing can work using other technology like * Bluetooth. */ @java.lang.Deprecated @UnsupportedAppUsage public boolean isNdefPushEnabled() { synchronized (sLock) { if (!sHasNfcFeature) { throw new UnsupportedOperationException(); } } return false; } /** * Signals that you are no longer interested in communicating with an NFC tag * for as long as it remains in range. * * All future attempted communication to this tag will fail with {@link IOException}. * The NFC controller will be put in a low-power polling mode, allowing the device * to save power in cases where it's "attached" to a tag all the time (e.g. a tag in * car dock). * * Additionally the debounceMs parameter allows you to specify for how long the tag needs * to have gone out of range, before it will be dispatched again. * * Note: the NFC controller typically polls at a pretty slow interval (100 - 500 ms). * This means that if the tag repeatedly goes in and out of range (for example, in * case of a flaky connection), and the controller happens to poll every time the * tag is out of range, it *will* re-dispatch the tag after debounceMs, despite the tag * having been "in range" during the interval. * * Note 2: if a tag with another UID is detected after this API is called, its effect * will be cancelled; if this tag shows up before the amount of time specified in * debounceMs, it will be dispatched again. * * Note 3: some tags have a random UID, in which case this API won't work reliably. * * @param tag the {@link android.nfc.Tag Tag} to ignore. * @param debounceMs minimum amount of time the tag needs to be out of range before being * dispatched again. * @param tagRemovedListener listener to be called when the tag is removed from the field. * Note that this will only be called if the tag has been out of range * for at least debounceMs, or if another tag came into range before * debounceMs. May be null in case you don't want a callback. * @param handler the {@link android.os.Handler Handler} that will be used for delivering * the callback. if the handler is null, then the thread used for delivering * the callback is unspecified. * @return false if the tag couldn't be found (or has already gone out of range), true otherwise */ public boolean ignore(final Tag tag, int debounceMs, final OnTagRemovedListener tagRemovedListener, final Handler handler) { ITagRemovedCallback.Stub iListener = null; if (tagRemovedListener != null) { iListener = new ITagRemovedCallback.Stub() { @Override public void onTagRemoved() throws RemoteException { if (handler != null) { handler.post(new Runnable() { @Override public void run() { tagRemovedListener.onTagRemoved(); } }); } else { tagRemovedListener.onTagRemoved(); } synchronized (mLock) { mTagRemovedListener = null; } } }; } synchronized (mLock) { mTagRemovedListener = iListener; } try { return sService.ignore(tag.getServiceHandle(), debounceMs, iListener); } catch (RemoteException e) { return false; } } /** * Inject a mock NFC tag.

* Used for testing purposes. *

Requires the * {@link android.Manifest.permission#WRITE_SECURE_SETTINGS} permission. * @hide */ public void dispatch(Tag tag) { if (tag == null) { throw new NullPointerException("tag cannot be null"); } try { sService.dispatch(tag); } catch (RemoteException e) { attemptDeadServiceRecovery(e); } } /** * Registers a new NFC unlock handler with the NFC service. * *

NFC unlock handlers are intended to unlock the keyguard in the presence of a trusted * NFC device. The handler should return true if it successfully authenticates the user and * unlocks the keyguard. * *

The parameter {@code tagTechnologies} determines which Tag technologies will be polled for * at the lockscreen. Polling for less tag technologies reduces latency, and so it is * strongly recommended to only provide the Tag technologies that the handler is expected to * receive. There must be at least one tag technology provided, otherwise the unlock handler * is ignored. * * @hide */ @SystemApi @RequiresPermission(android.Manifest.permission.WRITE_SECURE_SETTINGS) public boolean addNfcUnlockHandler(final NfcUnlockHandler unlockHandler, String[] tagTechnologies) { synchronized (sLock) { if (!sHasNfcFeature) { throw new UnsupportedOperationException(); } } // If there are no tag technologies, don't bother adding unlock handler if (tagTechnologies.length == 0) { return false; } try { synchronized (mLock) { if (mNfcUnlockHandlers.containsKey(unlockHandler)) { // update the tag technologies sService.removeNfcUnlockHandler(mNfcUnlockHandlers.get(unlockHandler)); mNfcUnlockHandlers.remove(unlockHandler); } INfcUnlockHandler.Stub iHandler = new INfcUnlockHandler.Stub() { @Override public boolean onUnlockAttempted(Tag tag) throws RemoteException { return unlockHandler.onUnlockAttempted(tag); } }; sService.addNfcUnlockHandler(iHandler, Tag.getTechCodesFromStrings(tagTechnologies)); mNfcUnlockHandlers.put(unlockHandler, iHandler); } } catch (RemoteException e) { attemptDeadServiceRecovery(e); return false; } catch (IllegalArgumentException e) { Log.e(TAG, "Unable to register LockscreenDispatch", e); return false; } return true; } /** * Removes a previously registered unlock handler. Also removes the tag technologies * associated with the removed unlock handler. * * @hide */ @SystemApi @RequiresPermission(android.Manifest.permission.WRITE_SECURE_SETTINGS) public boolean removeNfcUnlockHandler(NfcUnlockHandler unlockHandler) { synchronized (sLock) { if (!sHasNfcFeature) { throw new UnsupportedOperationException(); } } try { synchronized (mLock) { if (mNfcUnlockHandlers.containsKey(unlockHandler)) { sService.removeNfcUnlockHandler(mNfcUnlockHandlers.remove(unlockHandler)); } return true; } } catch (RemoteException e) { attemptDeadServiceRecovery(e); return false; } } /** * @hide */ @UnsupportedAppUsage(maxTargetSdk = Build.VERSION_CODES.R, trackingBug = 170729553) public INfcAdapterExtras getNfcAdapterExtrasInterface() { if (mContext == null) { throw new UnsupportedOperationException("You need a context on NfcAdapter to use the " + " NFC extras APIs"); } try { return sService.getNfcAdapterExtrasInterface(mContext.getPackageName()); } catch (RemoteException e) { attemptDeadServiceRecovery(e); // Try one more time if (sService == null) { Log.e(TAG, "Failed to recover NFC Service."); return null; } try { return sService.getNfcAdapterExtrasInterface(mContext.getPackageName()); } catch (RemoteException ee) { Log.e(TAG, "Failed to recover NFC Service."); } return null; } } void enforceResumed(Activity activity) { if (!activity.isResumed()) { throw new IllegalStateException("API cannot be called while activity is paused"); } } int getSdkVersion() { if (mContext == null) { return android.os.Build.VERSION_CODES.GINGERBREAD; // best guess } else { return mContext.getApplicationInfo().targetSdkVersion; } } /** * Sets NFC controller always on feature. *

This API is for the NFCC internal state management. It allows to discriminate * the controller function from the NFC function by keeping the NFC controller on without * any NFC RF enabled if necessary. *

This call is asynchronous. Register a listener {@link #ControllerAlwaysOnListener} * by {@link #registerControllerAlwaysOnListener} to find out when the operation is * complete. *

If this returns true, then either NFCC always on state has been set based on the value, * or a {@link ControllerAlwaysOnListener#onControllerAlwaysOnChanged(boolean)} will be invoked * to indicate the state change. * If this returns false, then there is some problem that prevents an attempt to turn NFCC * always on. * @param value if true the NFCC will be kept on (with no RF enabled if NFC adapter is * disabled), if false the NFCC will follow completely the Nfc adapter state. * @throws UnsupportedOperationException if FEATURE_NFC, * FEATURE_NFC_HOST_CARD_EMULATION, FEATURE_NFC_HOST_CARD_EMULATION_NFCF, * FEATURE_NFC_OFF_HOST_CARD_EMULATION_UICC and FEATURE_NFC_OFF_HOST_CARD_EMULATION_ESE * are unavailable * @return void * @hide */ @SystemApi @RequiresPermission(android.Manifest.permission.NFC_SET_CONTROLLER_ALWAYS_ON) public boolean setControllerAlwaysOn(boolean value) { if (!sHasNfcFeature && !sHasCeFeature) { throw new UnsupportedOperationException(); } try { return sService.setControllerAlwaysOn(value); } catch (RemoteException e) { attemptDeadServiceRecovery(e); // Try one more time if (sService == null) { Log.e(TAG, "Failed to recover NFC Service."); return false; } try { return sService.setControllerAlwaysOn(value); } catch (RemoteException ee) { Log.e(TAG, "Failed to recover NFC Service."); } return false; } } /** * Checks NFC controller always on feature is enabled. * * @return True if NFC controller always on is enabled, false otherwise * @throws UnsupportedOperationException if FEATURE_NFC, * FEATURE_NFC_HOST_CARD_EMULATION, FEATURE_NFC_HOST_CARD_EMULATION_NFCF, * FEATURE_NFC_OFF_HOST_CARD_EMULATION_UICC and FEATURE_NFC_OFF_HOST_CARD_EMULATION_ESE * are unavailable * @hide */ @SystemApi @RequiresPermission(android.Manifest.permission.NFC_SET_CONTROLLER_ALWAYS_ON) public boolean isControllerAlwaysOn() { try { return sService.isControllerAlwaysOn(); } catch (RemoteException e) { attemptDeadServiceRecovery(e); // Try one more time if (sService == null) { Log.e(TAG, "Failed to recover NFC Service."); return false; } try { return sService.isControllerAlwaysOn(); } catch (RemoteException ee) { Log.e(TAG, "Failed to recover NFC Service."); } return false; } } /** * Checks if the device supports NFC controller always on functionality. * * @return True if device supports NFC controller always on, false otherwise * @throws UnsupportedOperationException if FEATURE_NFC, * FEATURE_NFC_HOST_CARD_EMULATION, FEATURE_NFC_HOST_CARD_EMULATION_NFCF, * FEATURE_NFC_OFF_HOST_CARD_EMULATION_UICC and FEATURE_NFC_OFF_HOST_CARD_EMULATION_ESE * are unavailable * @hide */ @SystemApi @RequiresPermission(android.Manifest.permission.NFC_SET_CONTROLLER_ALWAYS_ON) public boolean isControllerAlwaysOnSupported() { if (!sHasNfcFeature && !sHasCeFeature) { throw new UnsupportedOperationException(); } try { return sService.isControllerAlwaysOnSupported(); } catch (RemoteException e) { attemptDeadServiceRecovery(e); // Try one more time if (sService == null) { Log.e(TAG, "Failed to recover NFC Service."); return false; } try { return sService.isControllerAlwaysOnSupported(); } catch (RemoteException ee) { Log.e(TAG, "Failed to recover NFC Service."); } return false; } } /** * Register a {@link ControllerAlwaysOnListener} to listen for NFC controller always on * state changes *

The provided listener will be invoked by the given {@link Executor}. * * @param executor an {@link Executor} to execute given listener * @param listener user implementation of the {@link ControllerAlwaysOnListener} * @hide */ @SystemApi @RequiresPermission(android.Manifest.permission.NFC_SET_CONTROLLER_ALWAYS_ON) public void registerControllerAlwaysOnListener( @NonNull @CallbackExecutor Executor executor, @NonNull ControllerAlwaysOnListener listener) { mControllerAlwaysOnListener.register(executor, listener); } /** * Unregister the specified {@link ControllerAlwaysOnListener} *

The same {@link ControllerAlwaysOnListener} object used when calling * {@link #registerControllerAlwaysOnListener(Executor, ControllerAlwaysOnListener)} * must be used. * *

Listeners are automatically unregistered when application process goes away * * @param listener user implementation of the {@link ControllerAlwaysOnListener} * @hide */ @SystemApi @RequiresPermission(android.Manifest.permission.NFC_SET_CONTROLLER_ALWAYS_ON) public void unregisterControllerAlwaysOnListener( @NonNull ControllerAlwaysOnListener listener) { mControllerAlwaysOnListener.unregister(listener); } /** * Sets whether we dispatch NFC Tag intents to the package. * *

{@link #ACTION_NDEF_DISCOVERED}, {@link #ACTION_TECH_DISCOVERED} or * {@link #ACTION_TAG_DISCOVERED} will not be dispatched to an Activity if its package is * disallowed. *

An app is added to the preference list with the allowed flag set to {@code true} * when a Tag intent is dispatched to the package for the first time. This API is called * by settings to note that the user wants to change this default preference. * * @param userId the user to whom this package name will belong to * @param pkg the full name (i.e. com.google.android.tag) of the package that will be added to * the preference list * @param allow {@code true} to allow dispatching Tag intents to the package's activity, * {@code false} otherwise * @return the {@link #TagIntentAppPreferenceResult} value * @throws UnsupportedOperationException if {@link isTagIntentAppPreferenceSupported} returns * {@code false} * * @hide */ @SystemApi @RequiresPermission(android.Manifest.permission.WRITE_SECURE_SETTINGS) @TagIntentAppPreferenceResult public int setTagIntentAppPreferenceForUser(@UserIdInt int userId, @NonNull String pkg, boolean allow) { Objects.requireNonNull(pkg, "pkg cannot be null"); if (!isTagIntentAppPreferenceSupported()) { Log.e(TAG, "TagIntentAppPreference is not supported"); throw new UnsupportedOperationException(); } try { return sService.setTagIntentAppPreferenceForUser(userId, pkg, allow); } catch (RemoteException e) { attemptDeadServiceRecovery(e); // Try one more time if (sService == null) { Log.e(TAG, "Failed to recover NFC Service."); } try { return sService.setTagIntentAppPreferenceForUser(userId, pkg, allow); } catch (RemoteException ee) { Log.e(TAG, "Failed to recover NFC Service."); } return TAG_INTENT_APP_PREF_RESULT_UNAVAILABLE; } } /** * Get the Tag dispatch preference list of the UserId. * *

This returns a mapping of package names for this user id to whether we dispatch Tag * intents to the package. {@link #ACTION_NDEF_DISCOVERED}, {@link #ACTION_TECH_DISCOVERED} or * {@link #ACTION_TAG_DISCOVERED} will not be dispatched to an Activity if its package is * mapped to {@code false}. *

There are three different possible cases: *

A package not being in the preference list. * It does not contain any Tag intent filters or the user never triggers a Tag detection that * matches the intent filter of the package. *

A package being mapped to {@code true}. * When a package has been launched by a tag detection for the first time, the package name is * put to the map and by default mapped to {@code true}. The package will receive Tag intents as * usual. *

A package being mapped to {@code false}. * The user chooses to disable this package and it will not receive any Tag intents anymore. * * @param userId the user to whom this preference list will belong to * @return a map of the UserId which indicates the mapping from package name to * boolean(allow status), otherwise return an empty map * @throws UnsupportedOperationException if {@link isTagIntentAppPreferenceSupported} returns * {@code false} * * @hide */ @SystemApi @RequiresPermission(android.Manifest.permission.WRITE_SECURE_SETTINGS) @NonNull public Map getTagIntentAppPreferenceForUser(@UserIdInt int userId) { if (!isTagIntentAppPreferenceSupported()) { Log.e(TAG, "TagIntentAppPreference is not supported"); throw new UnsupportedOperationException(); } try { Map result = (Map) sService .getTagIntentAppPreferenceForUser(userId); return result; } catch (RemoteException e) { attemptDeadServiceRecovery(e); // Try one more time if (sService == null) { Log.e(TAG, "Failed to recover NFC Service."); return Collections.emptyMap(); } try { Map result = (Map) sService .getTagIntentAppPreferenceForUser(userId); return result; } catch (RemoteException ee) { Log.e(TAG, "Failed to recover NFC Service."); } return Collections.emptyMap(); } } /** * Checks if the device supports Tag application preference. * * @return {@code true} if the device supports Tag application preference, {@code false} * otherwise * @throws UnsupportedOperationException if FEATURE_NFC is unavailable * * @hide */ @SystemApi @RequiresPermission(android.Manifest.permission.WRITE_SECURE_SETTINGS) public boolean isTagIntentAppPreferenceSupported() { if (!sHasNfcFeature) { throw new UnsupportedOperationException(); } try { return sService.isTagIntentAppPreferenceSupported(); } catch (RemoteException e) { attemptDeadServiceRecovery(e); // Try one more time if (sService == null) { Log.e(TAG, "Failed to recover NFC Service."); return false; } try { return sService.isTagIntentAppPreferenceSupported(); } catch (RemoteException ee) { Log.e(TAG, "Failed to recover NFC Service."); } return false; } } /** * Notifies the system of a new polling loop. * * @param frame is the new frame. * * @hide */ @TestApi @FlaggedApi(Flags.FLAG_NFC_READ_POLLING_LOOP) public void notifyPollingLoop(@NonNull PollingFrame pollingFrame) { try { if (sService == null) { attemptDeadServiceRecovery(null); } sService.notifyPollingLoop(pollingFrame); } catch (RemoteException e) { attemptDeadServiceRecovery(e); // Try one more time if (sService == null) { Log.e(TAG, "Failed to recover NFC Service."); return; } try { sService.notifyPollingLoop(pollingFrame); } catch (RemoteException ee) { Log.e(TAG, "Failed to recover NFC Service."); } } } /** * Notifies the system of a an HCE session being deactivated. * * * @hide */ @TestApi @FlaggedApi(Flags.FLAG_NFC_READ_POLLING_LOOP) public void notifyHceDeactivated() { try { if (sService == null) { attemptDeadServiceRecovery(null); } sService.notifyHceDeactivated(); } catch (RemoteException e) { attemptDeadServiceRecovery(e); // Try one more time if (sService == null) { Log.e(TAG, "Failed to recover NFC Service."); return; } try { sService.notifyHceDeactivated(); } catch (RemoteException ee) { Log.e(TAG, "Failed to recover NFC Service."); } } } /** * Sets NFC charging feature. *

This API is for the Settings application. * @return True if successful * @hide */ @SystemApi @FlaggedApi(Flags.FLAG_ENABLE_NFC_CHARGING) @RequiresPermission(android.Manifest.permission.WRITE_SECURE_SETTINGS) public boolean setWlcEnabled(boolean enable) { if (!sHasNfcWlcFeature) { throw new UnsupportedOperationException(); } try { return sService.setWlcEnabled(enable); } catch (RemoteException e) { attemptDeadServiceRecovery(e); // Try one more time if (sService == null) { Log.e(TAG, "Failed to recover NFC Service."); return false; } try { return sService.setWlcEnabled(enable); } catch (RemoteException ee) { Log.e(TAG, "Failed to recover NFC Service."); } return false; } } /** * Checks NFC charging feature is enabled. * * @return True if NFC charging is enabled, false otherwise * @throws UnsupportedOperationException if FEATURE_NFC_CHARGING * is unavailable */ @FlaggedApi(Flags.FLAG_ENABLE_NFC_CHARGING) public boolean isWlcEnabled() { if (!sHasNfcWlcFeature) { throw new UnsupportedOperationException(); } try { return sService.isWlcEnabled(); } catch (RemoteException e) { attemptDeadServiceRecovery(e); // Try one more time if (sService == null) { Log.e(TAG, "Failed to recover NFC Service."); return false; } try { return sService.isWlcEnabled(); } catch (RemoteException ee) { Log.e(TAG, "Failed to recover NFC Service."); } return false; } } /** * A listener to be invoked when NFC controller always on state changes. *

Register your {@code ControllerAlwaysOnListener} implementation with {@link * NfcAdapter#registerWlcStateListener} and disable it with {@link * NfcAdapter#unregisterWlcStateListenerListener}. * @see #registerWlcStateListener * @hide */ @SystemApi @FlaggedApi(Flags.FLAG_ENABLE_NFC_CHARGING) public interface WlcStateListener { /** * Called on NFC WLC state changes */ void onWlcStateChanged(@NonNull WlcListenerDeviceInfo wlcListenerDeviceInfo); } /** * Register a {@link WlcStateListener} to listen for NFC WLC state changes *

The provided listener will be invoked by the given {@link Executor}. * * @param executor an {@link Executor} to execute given listener * @param listener user implementation of the {@link WlcStateListener} * @throws UnsupportedOperationException if FEATURE_NFC_CHARGING * is unavailable * * @hide */ @SystemApi @FlaggedApi(Flags.FLAG_ENABLE_NFC_CHARGING) public void registerWlcStateListener( @NonNull @CallbackExecutor Executor executor, @NonNull WlcStateListener listener) { if (!sHasNfcWlcFeature) { throw new UnsupportedOperationException(); } mNfcWlcStateListener.register(executor, listener); } /** * Unregister the specified {@link WlcStateListener} *

The same {@link WlcStateListener} object used when calling * {@link #registerWlcStateListener(Executor, WlcStateListener)} * must be used. * *

Listeners are automatically unregistered when application process goes away * * @param listener user implementation of the {@link WlcStateListener}a * @throws UnsupportedOperationException if FEATURE_NFC_CHARGING * is unavailable * * @hide */ @SystemApi @FlaggedApi(Flags.FLAG_ENABLE_NFC_CHARGING) public void unregisterWlcStateListener( @NonNull WlcStateListener listener) { if (!sHasNfcWlcFeature) { throw new UnsupportedOperationException(); } mNfcWlcStateListener.unregister(listener); } /** * Returns information on the NFC charging listener device * * @return Information on the NFC charging listener device * @throws UnsupportedOperationException if FEATURE_NFC_CHARGING * is unavailable */ @FlaggedApi(Flags.FLAG_ENABLE_NFC_CHARGING) @Nullable public WlcListenerDeviceInfo getWlcListenerDeviceInfo() { if (!sHasNfcWlcFeature) { throw new UnsupportedOperationException(); } try { return sService.getWlcListenerDeviceInfo(); } catch (RemoteException e) { attemptDeadServiceRecovery(e); // Try one more time if (sService == null) { Log.e(TAG, "Failed to recover NFC Service."); return null; } try { return sService.getWlcListenerDeviceInfo(); } catch (RemoteException ee) { Log.e(TAG, "Failed to recover NFC Service."); } return null; } } /** * Vendor NCI command success. * @hide */ @SystemApi @FlaggedApi(Flags.FLAG_NFC_VENDOR_CMD) public static final int SEND_VENDOR_NCI_STATUS_SUCCESS = 0; /** * Vendor NCI command rejected. * @hide */ @SystemApi @FlaggedApi(Flags.FLAG_NFC_VENDOR_CMD) public static final int SEND_VENDOR_NCI_STATUS_REJECTED = 1; /** * Vendor NCI command corrupted. * @hide */ @SystemApi @FlaggedApi(Flags.FLAG_NFC_VENDOR_CMD) public static final int SEND_VENDOR_NCI_STATUS_MESSAGE_CORRUPTED = 2; /** * Vendor NCI command failed with unknown reason. * @hide */ @SystemApi @FlaggedApi(Flags.FLAG_NFC_VENDOR_CMD) public static final int SEND_VENDOR_NCI_STATUS_FAILED = 3; /** * @hide */ @Retention(RetentionPolicy.SOURCE) @IntDef(value = { SEND_VENDOR_NCI_STATUS_SUCCESS, SEND_VENDOR_NCI_STATUS_REJECTED, SEND_VENDOR_NCI_STATUS_MESSAGE_CORRUPTED, SEND_VENDOR_NCI_STATUS_FAILED, }) @interface SendVendorNciStatus {} /** * Message Type for NCI Command. * @hide */ @SystemApi @FlaggedApi(Flags.FLAG_NFC_VENDOR_CMD) public static final int MESSAGE_TYPE_COMMAND = 1; /** * @hide */ @Retention(RetentionPolicy.SOURCE) @IntDef(value = { MESSAGE_TYPE_COMMAND, }) @interface MessageType {} /** * Send Vendor specific Nci Messages with custom message type. * * The format of the NCI messages are defined in the NCI specification. The platform is * responsible for fragmenting the payload if necessary. * * Note that mt (message type) is added at the beginning of method parameters as it is more * distinctive than other parameters and was requested from vendor. * * @param mt message Type of the command * @param gid group ID of the command. This needs to be one of the vendor reserved GIDs from * the NCI specification * @param oid opcode ID of the command. This is left to the OEM / vendor to decide * @param payload containing vendor Nci message payload * @return message send status * @hide */ @SystemApi @FlaggedApi(Flags.FLAG_NFC_VENDOR_CMD) @RequiresPermission(android.Manifest.permission.WRITE_SECURE_SETTINGS) public @SendVendorNciStatus int sendVendorNciMessage(@MessageType int mt, @IntRange(from = 0, to = 15) int gid, @IntRange(from = 0) int oid, @NonNull byte[] payload) { Objects.requireNonNull(payload, "Payload must not be null"); try { return sService.sendVendorNciMessage(mt, gid, oid, payload); } catch (RemoteException e) { throw e.rethrowFromSystemServer(); } } /** * Register an {@link NfcVendorNciCallback} to listen for Nfc vendor responses and notifications *

The provided callback will be invoked by the given {@link Executor}. * *

When first registering a callback, the callbacks's * {@link NfcVendorNciCallback#onVendorNciCallBack(byte[])} is immediately invoked to * notify the vendor notification. * * @param executor an {@link Executor} to execute given callback * @param callback user implementation of the {@link NfcVendorNciCallback} * @hide */ @SystemApi @FlaggedApi(Flags.FLAG_NFC_VENDOR_CMD) @RequiresPermission(android.Manifest.permission.WRITE_SECURE_SETTINGS) public void registerNfcVendorNciCallback(@NonNull @CallbackExecutor Executor executor, @NonNull NfcVendorNciCallback callback) { mNfcVendorNciCallbackListener.register(executor, callback); } /** * Unregister the specified {@link NfcVendorNciCallback} * *

The same {@link NfcVendorNciCallback} object used when calling * {@link #registerNfcVendorNciCallback(Executor, NfcVendorNciCallback)} must be used. * *

Callbacks are automatically unregistered when application process goes away * * @param callback user implementation of the {@link NfcVendorNciCallback} * @hide */ @SystemApi @FlaggedApi(Flags.FLAG_NFC_VENDOR_CMD) @RequiresPermission(android.Manifest.permission.WRITE_SECURE_SETTINGS) public void unregisterNfcVendorNciCallback(@NonNull NfcVendorNciCallback callback) { mNfcVendorNciCallbackListener.unregister(callback); } /** * Interface for receiving vendor NCI responses and notifications. * @hide */ @SystemApi @FlaggedApi(Flags.FLAG_NFC_VENDOR_CMD) public interface NfcVendorNciCallback { /** * Invoked when a vendor specific NCI response is received. * * @param gid group ID of the command. This needs to be one of the vendor reserved GIDs from * the NCI specification. * @param oid opcode ID of the command. This is left to the OEM / vendor to decide. * @param payload containing vendor Nci message payload. */ @FlaggedApi(Flags.FLAG_NFC_VENDOR_CMD) void onVendorNciResponse( @IntRange(from = 0, to = 15) int gid, int oid, @NonNull byte[] payload); /** * Invoked when a vendor specific NCI notification is received. * * @param gid group ID of the command. This needs to be one of the vendor reserved GIDs from * the NCI specification. * @param oid opcode ID of the command. This is left to the OEM / vendor to decide. * @param payload containing vendor Nci message payload. */ @FlaggedApi(Flags.FLAG_NFC_VENDOR_CMD) void onVendorNciNotification( @IntRange(from = 9, to = 15) int gid, int oid, @NonNull byte[] payload); } /** * Returns an instance of {@link NfcOemExtension} associated with {@link NfcAdapter} instance. * @hide */ @SystemApi @FlaggedApi(Flags.FLAG_NFC_OEM_EXTENSION) @NonNull public NfcOemExtension getNfcOemExtension() { synchronized (sLock) { if (!sHasNfcFeature) { throw new UnsupportedOperationException(); } } return mNfcOemExtension; } }