* The primary responsibilities of this class are to: *
* If an application uses the network in the background, it should listen * for this broadcast and stop using the background data if the value is * {@code false}. *
* * @deprecated As of {@link VERSION_CODES#ICE_CREAM_SANDWICH}, availability * of background data depends on several combined factors, and * this broadcast is no longer sent. Instead, when background * data is unavailable, {@link #getActiveNetworkInfo()} will now * appear disconnected. During first boot after a platform * upgrade, this broadcast will be sent once if * {@link #getBackgroundDataSetting()} was {@code false} before * the upgrade. */ @SdkConstant(SdkConstantType.BROADCAST_INTENT_ACTION) @Deprecated public static final String ACTION_BACKGROUND_DATA_SETTING_CHANGED = "android.net.conn.BACKGROUND_DATA_SETTING_CHANGED"; /** * Broadcast Action: The network connection may not be good * uses {@code ConnectivityManager.EXTRA_INET_CONDITION} and * {@code ConnectivityManager.EXTRA_NETWORK_INFO} to specify * the network and it's condition. * @hide */ @SdkConstant(SdkConstantType.BROADCAST_INTENT_ACTION) @UnsupportedAppUsage public static final String INET_CONDITION_ACTION = "android.net.conn.INET_CONDITION_ACTION"; /** * Broadcast Action: A tetherable connection has come or gone. * Uses {@code ConnectivityManager.EXTRA_AVAILABLE_TETHER}, * {@code ConnectivityManager.EXTRA_ACTIVE_LOCAL_ONLY}, * {@code ConnectivityManager.EXTRA_ACTIVE_TETHER}, and * {@code ConnectivityManager.EXTRA_ERRORED_TETHER} to indicate * the current state of tethering. Each include a list of * interface names in that state (may be empty). * @hide */ @SdkConstant(SdkConstantType.BROADCAST_INTENT_ACTION) @UnsupportedAppUsage public static final String ACTION_TETHER_STATE_CHANGED = "android.net.conn.TETHER_STATE_CHANGED"; /** * @hide * gives a String[] listing all the interfaces configured for * tethering and currently available for tethering. */ @UnsupportedAppUsage public static final String EXTRA_AVAILABLE_TETHER = "availableArray"; /** * @hide * gives a String[] listing all the interfaces currently in local-only * mode (ie, has DHCPv4+IPv6-ULA support and no packet forwarding) */ public static final String EXTRA_ACTIVE_LOCAL_ONLY = "localOnlyArray"; /** * @hide * gives a String[] listing all the interfaces currently tethered * (ie, has DHCPv4 support and packets potentially forwarded/NATed) */ @UnsupportedAppUsage public static final String EXTRA_ACTIVE_TETHER = "tetherArray"; /** * @hide * gives a String[] listing all the interfaces we tried to tether and * failed. Use {@link #getLastTetherError} to find the error code * for any interfaces listed here. */ @UnsupportedAppUsage public static final String EXTRA_ERRORED_TETHER = "erroredArray"; /** * Broadcast Action: The captive portal tracker has finished its test. * Sent only while running Setup Wizard, in lieu of showing a user * notification. * @hide */ @SdkConstant(SdkConstantType.BROADCAST_INTENT_ACTION) public static final String ACTION_CAPTIVE_PORTAL_TEST_COMPLETED = "android.net.conn.CAPTIVE_PORTAL_TEST_COMPLETED"; /** * The lookup key for a boolean that indicates whether a captive portal was detected. * Retrieve it with {@link android.content.Intent#getBooleanExtra(String,boolean)}. * @hide */ public static final String EXTRA_IS_CAPTIVE_PORTAL = "captivePortal"; /** * Action used to display a dialog that asks the user whether to connect to a network that is * not validated. This intent is used to start the dialog in settings via startActivity. * * @hide */ public static final String ACTION_PROMPT_UNVALIDATED = "android.net.conn.PROMPT_UNVALIDATED"; /** * Action used to display a dialog that asks the user whether to avoid a network that is no * longer validated. This intent is used to start the dialog in settings via startActivity. * * @hide */ public static final String ACTION_PROMPT_LOST_VALIDATION = "android.net.conn.PROMPT_LOST_VALIDATION"; /** * Action used to display a dialog that asks the user whether to stay connected to a network * that has not validated. This intent is used to start the dialog in settings via * startActivity. * * @hide */ public static final String ACTION_PROMPT_PARTIAL_CONNECTIVITY = "android.net.conn.PROMPT_PARTIAL_CONNECTIVITY"; /** * Invalid tethering type. * @see #startTethering(int, boolean, OnStartTetheringCallback) * @hide */ public static final int TETHERING_INVALID = -1; /** * Wifi tethering type. * @see #startTethering(int, boolean, OnStartTetheringCallback) * @hide */ @SystemApi public static final int TETHERING_WIFI = 0; /** * USB tethering type. * @see #startTethering(int, boolean, OnStartTetheringCallback) * @hide */ @SystemApi public static final int TETHERING_USB = 1; /** * Bluetooth tethering type. * @see #startTethering(int, boolean, OnStartTetheringCallback) * @hide */ @SystemApi public static final int TETHERING_BLUETOOTH = 2; /** * Extra used for communicating with the TetherService. Includes the type of tethering to * enable if any. * @hide */ public static final String EXTRA_ADD_TETHER_TYPE = "extraAddTetherType"; /** * Extra used for communicating with the TetherService. Includes the type of tethering for * which to cancel provisioning. * @hide */ public static final String EXTRA_REM_TETHER_TYPE = "extraRemTetherType"; /** * Extra used for communicating with the TetherService. True to schedule a recheck of tether * provisioning. * @hide */ public static final String EXTRA_SET_ALARM = "extraSetAlarm"; /** * Tells the TetherService to run a provision check now. * @hide */ public static final String EXTRA_RUN_PROVISION = "extraRunProvision"; /** * Extra used for communicating with the TetherService. Contains the {@link ResultReceiver} * which will receive provisioning results. Can be left empty. * @hide */ public static final String EXTRA_PROVISION_CALLBACK = "extraProvisionCallback"; /** * The absence of a connection type. * @hide */ @UnsupportedAppUsage(maxTargetSdk = Build.VERSION_CODES.P, trackingBug = 130143562) public static final int TYPE_NONE = -1; /** * A Mobile data connection. Devices may support more than one. * * @deprecated Applications should instead use {@link NetworkCapabilities#hasTransport} or * {@link #requestNetwork(NetworkRequest, NetworkCallback)} to request an * appropriate network. {@see NetworkCapabilities} for supported transports. */ @Deprecated public static final int TYPE_MOBILE = 0; /** * A WIFI data connection. Devices may support more than one. * * @deprecated Applications should instead use {@link NetworkCapabilities#hasTransport} or * {@link #requestNetwork(NetworkRequest, NetworkCallback)} to request an * appropriate network. {@see NetworkCapabilities} for supported transports. */ @Deprecated public static final int TYPE_WIFI = 1; /** * An MMS-specific Mobile data connection. This network type may use the * same network interface as {@link #TYPE_MOBILE} or it may use a different * one. This is used by applications needing to talk to the carrier's * Multimedia Messaging Service servers. * * @deprecated Applications should instead use {@link NetworkCapabilities#hasCapability} or * {@link #requestNetwork(NetworkRequest, NetworkCallback)} to request a network that * provides the {@link NetworkCapabilities#NET_CAPABILITY_MMS} capability. */ @Deprecated public static final int TYPE_MOBILE_MMS = 2; /** * A SUPL-specific Mobile data connection. This network type may use the * same network interface as {@link #TYPE_MOBILE} or it may use a different * one. This is used by applications needing to talk to the carrier's * Secure User Plane Location servers for help locating the device. * * @deprecated Applications should instead use {@link NetworkCapabilities#hasCapability} or * {@link #requestNetwork(NetworkRequest, NetworkCallback)} to request a network that * provides the {@link NetworkCapabilities#NET_CAPABILITY_SUPL} capability. */ @Deprecated public static final int TYPE_MOBILE_SUPL = 3; /** * A DUN-specific Mobile data connection. This network type may use the * same network interface as {@link #TYPE_MOBILE} or it may use a different * one. This is sometimes by the system when setting up an upstream connection * for tethering so that the carrier is aware of DUN traffic. * * @deprecated Applications should instead use {@link NetworkCapabilities#hasCapability} or * {@link #requestNetwork(NetworkRequest, NetworkCallback)} to request a network that * provides the {@link NetworkCapabilities#NET_CAPABILITY_DUN} capability. */ @Deprecated public static final int TYPE_MOBILE_DUN = 4; /** * A High Priority Mobile data connection. This network type uses the * same network interface as {@link #TYPE_MOBILE} but the routing setup * is different. * * @deprecated Applications should instead use {@link NetworkCapabilities#hasTransport} or * {@link #requestNetwork(NetworkRequest, NetworkCallback)} to request an * appropriate network. {@see NetworkCapabilities} for supported transports. */ @Deprecated public static final int TYPE_MOBILE_HIPRI = 5; /** * A WiMAX data connection. * * @deprecated Applications should instead use {@link NetworkCapabilities#hasTransport} or * {@link #requestNetwork(NetworkRequest, NetworkCallback)} to request an * appropriate network. {@see NetworkCapabilities} for supported transports. */ @Deprecated public static final int TYPE_WIMAX = 6; /** * A Bluetooth data connection. * * @deprecated Applications should instead use {@link NetworkCapabilities#hasTransport} or * {@link #requestNetwork(NetworkRequest, NetworkCallback)} to request an * appropriate network. {@see NetworkCapabilities} for supported transports. */ @Deprecated public static final int TYPE_BLUETOOTH = 7; /** * Dummy data connection. This should not be used on shipping devices. * @deprecated This is not used any more. */ @Deprecated public static final int TYPE_DUMMY = 8; /** * An Ethernet data connection. * * @deprecated Applications should instead use {@link NetworkCapabilities#hasTransport} or * {@link #requestNetwork(NetworkRequest, NetworkCallback)} to request an * appropriate network. {@see NetworkCapabilities} for supported transports. */ @Deprecated public static final int TYPE_ETHERNET = 9; /** * Over the air Administration. * @deprecated Use {@link NetworkCapabilities} instead. * {@hide} */ @Deprecated @UnsupportedAppUsage(maxTargetSdk = Build.VERSION_CODES.P, trackingBug = 130143562) public static final int TYPE_MOBILE_FOTA = 10; /** * IP Multimedia Subsystem. * @deprecated Use {@link NetworkCapabilities#NET_CAPABILITY_IMS} instead. * {@hide} */ @Deprecated @UnsupportedAppUsage public static final int TYPE_MOBILE_IMS = 11; /** * Carrier Branded Services. * @deprecated Use {@link NetworkCapabilities#NET_CAPABILITY_CBS} instead. * {@hide} */ @Deprecated @UnsupportedAppUsage(maxTargetSdk = Build.VERSION_CODES.P, trackingBug = 130143562) public static final int TYPE_MOBILE_CBS = 12; /** * A Wi-Fi p2p connection. Only requesting processes will have access to * the peers connected. * @deprecated Use {@link NetworkCapabilities#NET_CAPABILITY_WIFI_P2P} instead. * {@hide} */ @Deprecated @UnsupportedAppUsage public static final int TYPE_WIFI_P2P = 13; /** * The network to use for initially attaching to the network * @deprecated Use {@link NetworkCapabilities#NET_CAPABILITY_IA} instead. * {@hide} */ @Deprecated @UnsupportedAppUsage public static final int TYPE_MOBILE_IA = 14; /** * Emergency PDN connection for emergency services. This * may include IMS and MMS in emergency situations. * @deprecated Use {@link NetworkCapabilities#NET_CAPABILITY_EIMS} instead. * {@hide} */ @Deprecated @UnsupportedAppUsage(maxTargetSdk = Build.VERSION_CODES.P, trackingBug = 130143562) public static final int TYPE_MOBILE_EMERGENCY = 15; /** * The network that uses proxy to achieve connectivity. * @deprecated Use {@link NetworkCapabilities} instead. * {@hide} */ @Deprecated @UnsupportedAppUsage public static final int TYPE_PROXY = 16; /** * A virtual network using one or more native bearers. * It may or may not be providing security services. * @deprecated Applications should use {@link NetworkCapabilities#TRANSPORT_VPN} instead. */ @Deprecated public static final int TYPE_VPN = 17; /** * A network that is exclusively meant to be used for testing * * @deprecated Use {@link NetworkCapabilities} instead. * @hide */ @Deprecated public static final int TYPE_TEST = 18; // TODO: Remove this once NetworkTypes are unused. /** {@hide} */ public static final int MAX_RADIO_TYPE = TYPE_TEST; /** {@hide} */ public static final int MAX_NETWORK_TYPE = TYPE_TEST; private static final int MIN_NETWORK_TYPE = TYPE_MOBILE; /** * If you want to set the default network preference,you can directly * change the networkAttributes array in framework's config.xml. * * @deprecated Since we support so many more networks now, the single * network default network preference can't really express * the hierarchy. Instead, the default is defined by the * networkAttributes in config.xml. You can determine * the current value by calling {@link #getNetworkPreference()} * from an App. */ @Deprecated public static final int DEFAULT_NETWORK_PREFERENCE = TYPE_WIFI; /** * @hide */ public static final int REQUEST_ID_UNSET = 0; /** * Static unique request used as a tombstone for NetworkCallbacks that have been unregistered. * This allows to distinguish when unregistering NetworkCallbacks those that were never * registered from those that were already unregistered. * @hide */ private static final NetworkRequest ALREADY_UNREGISTERED = new NetworkRequest.Builder().clearCapabilities().build(); /** * A NetID indicating no Network is selected. * Keep in sync with bionic/libc/dns/include/resolv_netid.h * @hide */ public static final int NETID_UNSET = 0; /** * Private DNS Mode values. * * The "private_dns_mode" global setting stores a String value which is * expected to be one of the following. */ /** * @hide */ public static final String PRIVATE_DNS_MODE_OFF = "off"; /** * @hide */ public static final String PRIVATE_DNS_MODE_OPPORTUNISTIC = "opportunistic"; /** * @hide */ public static final String PRIVATE_DNS_MODE_PROVIDER_HOSTNAME = "hostname"; /** * The default Private DNS mode. * * This may change from release to release or may become dependent upon * the capabilities of the underlying platform. * * @hide */ public static final String PRIVATE_DNS_DEFAULT_MODE_FALLBACK = PRIVATE_DNS_MODE_OPPORTUNISTIC; @UnsupportedAppUsage(maxTargetSdk = Build.VERSION_CODES.P, trackingBug = 130143562) private final IConnectivityManager mService; /** * A kludge to facilitate static access where a Context pointer isn't available, like in the * case of the static set/getProcessDefaultNetwork methods and from the Network class. * TODO: Remove this after deprecating the static methods in favor of non-static methods or * methods that take a Context argument. */ private static ConnectivityManager sInstance; private final Context mContext; private INetworkManagementService mNMService; private INetworkPolicyManager mNPManager; /** * Tests if a given integer represents a valid network type. * @param networkType the type to be tested * @return a boolean. {@code true} if the type is valid, else {@code false} * @deprecated All APIs accepting a network type are deprecated. There should be no need to * validate a network type. */ @Deprecated public static boolean isNetworkTypeValid(int networkType) { return MIN_NETWORK_TYPE <= networkType && networkType <= MAX_NETWORK_TYPE; } /** * Returns a non-localized string representing a given network type. * ONLY used for debugging output. * @param type the type needing naming * @return a String for the given type, or a string version of the type ("87") * if no name is known. * @deprecated Types are deprecated. Use {@link NetworkCapabilities} instead. * {@hide} */ @Deprecated @UnsupportedAppUsage public static String getNetworkTypeName(int type) { switch (type) { case TYPE_NONE: return "NONE"; case TYPE_MOBILE: return "MOBILE"; case TYPE_WIFI: return "WIFI"; case TYPE_MOBILE_MMS: return "MOBILE_MMS"; case TYPE_MOBILE_SUPL: return "MOBILE_SUPL"; case TYPE_MOBILE_DUN: return "MOBILE_DUN"; case TYPE_MOBILE_HIPRI: return "MOBILE_HIPRI"; case TYPE_WIMAX: return "WIMAX"; case TYPE_BLUETOOTH: return "BLUETOOTH"; case TYPE_DUMMY: return "DUMMY"; case TYPE_ETHERNET: return "ETHERNET"; case TYPE_MOBILE_FOTA: return "MOBILE_FOTA"; case TYPE_MOBILE_IMS: return "MOBILE_IMS"; case TYPE_MOBILE_CBS: return "MOBILE_CBS"; case TYPE_WIFI_P2P: return "WIFI_P2P"; case TYPE_MOBILE_IA: return "MOBILE_IA"; case TYPE_MOBILE_EMERGENCY: return "MOBILE_EMERGENCY"; case TYPE_PROXY: return "PROXY"; case TYPE_VPN: return "VPN"; default: return Integer.toString(type); } } /** * Checks if a given type uses the cellular data connection. * This should be replaced in the future by a network property. * @param networkType the type to check * @return a boolean - {@code true} if uses cellular network, else {@code false} * @deprecated Types are deprecated. Use {@link NetworkCapabilities} instead. * {@hide} */ @Deprecated @UnsupportedAppUsage(maxTargetSdk = Build.VERSION_CODES.P, trackingBug = 130143562) public static boolean isNetworkTypeMobile(int networkType) { switch (networkType) { case TYPE_MOBILE: case TYPE_MOBILE_MMS: case TYPE_MOBILE_SUPL: case TYPE_MOBILE_DUN: case TYPE_MOBILE_HIPRI: case TYPE_MOBILE_FOTA: case TYPE_MOBILE_IMS: case TYPE_MOBILE_CBS: case TYPE_MOBILE_IA: case TYPE_MOBILE_EMERGENCY: return true; default: return false; } } /** * Checks if the given network type is backed by a Wi-Fi radio. * * @deprecated Types are deprecated. Use {@link NetworkCapabilities} instead. * @hide */ @Deprecated public static boolean isNetworkTypeWifi(int networkType) { switch (networkType) { case TYPE_WIFI: case TYPE_WIFI_P2P: return true; default: return false; } } /** * Specifies the preferred network type. When the device has more * than one type available the preferred network type will be used. * * @param preference the network type to prefer over all others. It is * unspecified what happens to the old preferred network in the * overall ordering. * @deprecated Functionality has been removed as it no longer makes sense, * with many more than two networks - we'd need an array to express * preference. Instead we use dynamic network properties of * the networks to describe their precedence. */ @Deprecated public void setNetworkPreference(int preference) { } /** * Retrieves the current preferred network type. * * @return an integer representing the preferred network type * * @deprecated Functionality has been removed as it no longer makes sense, * with many more than two networks - we'd need an array to express * preference. Instead we use dynamic network properties of * the networks to describe their precedence. */ @Deprecated @RequiresPermission(android.Manifest.permission.ACCESS_NETWORK_STATE) public int getNetworkPreference() { return TYPE_NONE; } /** * Returns details about the currently active default data network. When * connected, this network is the default route for outgoing connections. * You should always check {@link NetworkInfo#isConnected()} before initiating * network traffic. This may return {@code null} when there is no default * network. * Note that if the default network is a VPN, this method will return the * NetworkInfo for one of its underlying networks instead, or null if the * VPN agent did not specify any. Apps interested in learning about VPNs * should use {@link #getNetworkInfo(android.net.Network)} instead. * * @return a {@link NetworkInfo} object for the current default network * or {@code null} if no default network is currently active * @deprecated See {@link NetworkInfo}. */ @Deprecated @RequiresPermission(android.Manifest.permission.ACCESS_NETWORK_STATE) @Nullable public NetworkInfo getActiveNetworkInfo() { try { return mService.getActiveNetworkInfo(); } catch (RemoteException e) { throw e.rethrowFromSystemServer(); } } /** * Returns a {@link Network} object corresponding to the currently active * default data network. In the event that the current active default data * network disconnects, the returned {@code Network} object will no longer * be usable. This will return {@code null} when there is no default * network. * * @return a {@link Network} object for the current default network or * {@code null} if no default network is currently active */ @RequiresPermission(android.Manifest.permission.ACCESS_NETWORK_STATE) @Nullable public Network getActiveNetwork() { try { return mService.getActiveNetwork(); } catch (RemoteException e) { throw e.rethrowFromSystemServer(); } } /** * Returns a {@link Network} object corresponding to the currently active * default data network for a specific UID. In the event that the default data * network disconnects, the returned {@code Network} object will no longer * be usable. This will return {@code null} when there is no default * network for the UID. * * @return a {@link Network} object for the current default network for the * given UID or {@code null} if no default network is currently active * * @hide */ @RequiresPermission(android.Manifest.permission.CONNECTIVITY_INTERNAL) @Nullable public Network getActiveNetworkForUid(int uid) { return getActiveNetworkForUid(uid, false); } /** {@hide} */ public Network getActiveNetworkForUid(int uid, boolean ignoreBlocked) { try { return mService.getActiveNetworkForUid(uid, ignoreBlocked); } catch (RemoteException e) { throw e.rethrowFromSystemServer(); } } /** * Checks if a VPN app supports always-on mode. * * In order to support the always-on feature, an app has to *
The designated package should declare a {@link VpnService} in its
* manifest guarded by {@link android.Manifest.permission.BIND_VPN_SERVICE},
* otherwise the call will fail.
*
* @param userId The identifier of the user to set an always-on VPN for.
* @param vpnPackage The package name for an installed VPN app on the device, or {@code null}
* to remove an existing always-on VPN configuration.
* @param lockdownEnabled {@code true} to disallow networking when the VPN is not connected or
* {@code false} otherwise.
* @param lockdownWhitelist The list of packages that are allowed to access network directly
* when VPN is in lockdown mode but is not running. Non-existent packages are ignored so
* this method must be called when a package that should be whitelisted is installed or
* uninstalled.
* @return {@code true} if the package is set as always-on VPN controller;
* {@code false} otherwise.
* @hide
*/
@RequiresPermission(android.Manifest.permission.CONTROL_ALWAYS_ON_VPN)
public boolean setAlwaysOnVpnPackageForUser(int userId, @Nullable String vpnPackage,
boolean lockdownEnabled, @Nullable List This method requires the caller to hold either the
* {@link android.Manifest.permission#CHANGE_NETWORK_STATE} permission
* or the ability to modify system settings as determined by
* {@link android.provider.Settings.System#canWrite}. This method requires the caller to hold either the
* {@link android.Manifest.permission#CHANGE_NETWORK_STATE} permission
* or the ability to modify system settings as determined by
* {@link android.provider.Settings.System#canWrite}. This method requires the caller to hold either the
* {@link android.Manifest.permission#CHANGE_NETWORK_STATE} permission
* or the ability to modify system settings as determined by
* {@link android.provider.Settings.System#canWrite}. This method requires the caller to hold either the
* {@link android.Manifest.permission#CHANGE_NETWORK_STATE} permission
* or the ability to modify system settings as determined by
* {@link android.provider.Settings.System#canWrite}.
* All applications that have background services that use the network
* should listen to {@link #ACTION_BACKGROUND_DATA_SETTING_CHANGED}.
*
* @deprecated As of {@link VERSION_CODES#ICE_CREAM_SANDWICH}, availability of
* background data depends on several combined factors, and this method will
* always return {@code true}. Instead, when background data is unavailable,
* {@link #getActiveNetworkInfo()} will now appear disconnected.
*
* @return Whether background data usage is allowed.
*/
@Deprecated
public boolean getBackgroundDataSetting() {
// assume that background data is allowed; final authority is
// NetworkInfo which may be blocked.
return true;
}
/**
* Sets the value of the setting for background data usage.
*
* @param allowBackgroundData Whether an application should use data while
* it is in the background.
*
* @attr ref android.Manifest.permission#CHANGE_BACKGROUND_DATA_SETTING
* @see #getBackgroundDataSetting()
* @hide
*/
@Deprecated
@UnsupportedAppUsage
public void setBackgroundDataSetting(boolean allowBackgroundData) {
// ignored
}
/** {@hide} */
@Deprecated
@UnsupportedAppUsage
public NetworkQuotaInfo getActiveNetworkQuotaInfo() {
try {
return mService.getActiveNetworkQuotaInfo();
} catch (RemoteException e) {
throw e.rethrowFromSystemServer();
}
}
/**
* @hide
* @deprecated Talk to TelephonyManager directly
*/
@Deprecated
@UnsupportedAppUsage
public boolean getMobileDataEnabled() {
IBinder b = ServiceManager.getService(Context.TELEPHONY_SERVICE);
if (b != null) {
try {
ITelephony it = ITelephony.Stub.asInterface(b);
int subId = SubscriptionManager.getDefaultDataSubscriptionId();
Log.d("ConnectivityManager", "getMobileDataEnabled()+ subId=" + subId);
boolean retVal = it.isUserDataEnabled(subId);
Log.d("ConnectivityManager", "getMobileDataEnabled()- subId=" + subId
+ " retVal=" + retVal);
return retVal;
} catch (RemoteException e) {
throw e.rethrowFromSystemServer();
}
}
Log.d("ConnectivityManager", "getMobileDataEnabled()- remote exception retVal=false");
return false;
}
/**
* Callback for use with {@link ConnectivityManager#addDefaultNetworkActiveListener}
* to find out when the system default network has gone in to a high power state.
*/
public interface OnNetworkActiveListener {
/**
* Called on the main thread of the process to report that the current data network
* has become active, and it is now a good time to perform any pending network
* operations. Note that this listener only tells you when the network becomes
* active; if at any other time you want to know whether it is active (and thus okay
* to initiate network traffic), you can retrieve its instantaneous state with
* {@link ConnectivityManager#isDefaultNetworkActive}.
*/
void onNetworkActive();
}
private INetworkManagementService getNetworkManagementService() {
synchronized (this) {
if (mNMService != null) {
return mNMService;
}
IBinder b = ServiceManager.getService(Context.NETWORKMANAGEMENT_SERVICE);
mNMService = INetworkManagementService.Stub.asInterface(b);
return mNMService;
}
}
private final ArrayMap
* If the process default network has been set with
* {@link ConnectivityManager#bindProcessToNetwork} this function will not
* reflect the process's default, but the system default.
*
* @param l The listener to be told when the network is active.
*/
public void addDefaultNetworkActiveListener(final OnNetworkActiveListener l) {
INetworkActivityListener rl = new INetworkActivityListener.Stub() {
@Override
public void onNetworkActive() throws RemoteException {
l.onNetworkActive();
}
};
try {
getNetworkManagementService().registerNetworkActivityListener(rl);
mNetworkActivityListeners.put(l, rl);
} catch (RemoteException e) {
throw e.rethrowFromSystemServer();
}
}
/**
* Remove network active listener previously registered with
* {@link #addDefaultNetworkActiveListener}.
*
* @param l Previously registered listener.
*/
public void removeDefaultNetworkActiveListener(@NonNull OnNetworkActiveListener l) {
INetworkActivityListener rl = mNetworkActivityListeners.get(l);
Preconditions.checkArgument(rl != null, "Listener was not registered.");
try {
getNetworkManagementService().unregisterNetworkActivityListener(rl);
} catch (RemoteException e) {
throw e.rethrowFromSystemServer();
}
}
/**
* Return whether the data network is currently active. An active network means that
* it is currently in a high power state for performing data transmission. On some
* types of networks, it may be expensive to move and stay in such a state, so it is
* more power efficient to batch network traffic together when the radio is already in
* this state. This method tells you whether right now is currently a good time to
* initiate network traffic, as the network is already active.
*/
public boolean isDefaultNetworkActive() {
try {
return getNetworkManagementService().isNetworkActive();
} catch (RemoteException e) {
throw e.rethrowFromSystemServer();
}
}
/**
* {@hide}
*/
public ConnectivityManager(Context context, IConnectivityManager service) {
mContext = Preconditions.checkNotNull(context, "missing context");
mService = Preconditions.checkNotNull(service, "missing IConnectivityManager");
sInstance = this;
}
/** {@hide} */
@UnsupportedAppUsage
public static ConnectivityManager from(Context context) {
return (ConnectivityManager) context.getSystemService(Context.CONNECTIVITY_SERVICE);
}
/** @hide */
public NetworkRequest getDefaultRequest() {
try {
// This is not racy as the default request is final in ConnectivityService.
return mService.getDefaultRequest();
} catch (RemoteException e) {
throw e.rethrowFromSystemServer();
}
}
/* TODO: These permissions checks don't belong in client-side code. Move them to
* services.jar, possibly in com.android.server.net. */
/** {@hide} */
public static final void enforceChangePermission(Context context) {
int uid = Binder.getCallingUid();
Settings.checkAndNoteChangeNetworkStateOperation(context, uid, Settings
.getPackageNameForUid(context, uid), true /* throwException */);
}
/** {@hide} */
public static final void enforceTetherChangePermission(Context context, String callingPkg) {
Preconditions.checkNotNull(context, "Context cannot be null");
Preconditions.checkNotNull(callingPkg, "callingPkg cannot be null");
if (context.getResources().getStringArray(
com.android.internal.R.array.config_mobile_hotspot_provision_app).length == 2) {
// Have a provisioning app - must only let system apps (which check this app)
// turn on tethering
context.enforceCallingOrSelfPermission(
android.Manifest.permission.TETHER_PRIVILEGED, "ConnectivityService");
} else {
int uid = Binder.getCallingUid();
// If callingPkg's uid is not same as Binder.getCallingUid(),
// AppOpsService throws SecurityException.
Settings.checkAndNoteWriteSettingsOperation(context, uid, callingPkg,
true /* throwException */);
}
}
/**
* @deprecated - use getSystemService. This is a kludge to support static access in certain
* situations where a Context pointer is unavailable.
* @hide
*/
@Deprecated
static ConnectivityManager getInstanceOrNull() {
return sInstance;
}
/**
* @deprecated - use getSystemService. This is a kludge to support static access in certain
* situations where a Context pointer is unavailable.
* @hide
*/
@Deprecated
@UnsupportedAppUsage
private static ConnectivityManager getInstance() {
if (getInstanceOrNull() == null) {
throw new IllegalStateException("No ConnectivityManager yet constructed");
}
return getInstanceOrNull();
}
/**
* Get the set of tetherable, available interfaces. This list is limited by
* device configuration and current interface existence.
*
* @return an array of 0 or more Strings of tetherable interface names.
*
* {@hide}
*/
@RequiresPermission(android.Manifest.permission.ACCESS_NETWORK_STATE)
@UnsupportedAppUsage
public String[] getTetherableIfaces() {
try {
return mService.getTetherableIfaces();
} catch (RemoteException e) {
throw e.rethrowFromSystemServer();
}
}
/**
* Get the set of tethered interfaces.
*
* @return an array of 0 or more String of currently tethered interface names.
*
* {@hide}
*/
@RequiresPermission(android.Manifest.permission.ACCESS_NETWORK_STATE)
@UnsupportedAppUsage
public String[] getTetheredIfaces() {
try {
return mService.getTetheredIfaces();
} catch (RemoteException e) {
throw e.rethrowFromSystemServer();
}
}
/**
* Get the set of interface names which attempted to tether but
* failed. Re-attempting to tether may cause them to reset to the Tethered
* state. Alternatively, causing the interface to be destroyed and recreated
* may cause them to reset to the available state.
* {@link ConnectivityManager#getLastTetherError} can be used to get more
* information on the cause of the errors.
*
* @return an array of 0 or more String indicating the interface names
* which failed to tether.
*
* {@hide}
*/
@RequiresPermission(android.Manifest.permission.ACCESS_NETWORK_STATE)
@UnsupportedAppUsage
public String[] getTetheringErroredIfaces() {
try {
return mService.getTetheringErroredIfaces();
} catch (RemoteException e) {
throw e.rethrowFromSystemServer();
}
}
/**
* Get the set of tethered dhcp ranges.
*
* @return an array of 0 or more {@code String} of tethered dhcp ranges.
* {@hide}
*/
public String[] getTetheredDhcpRanges() {
try {
return mService.getTetheredDhcpRanges();
} catch (RemoteException e) {
throw e.rethrowFromSystemServer();
}
}
/**
* Attempt to tether the named interface. This will setup a dhcp server
* on the interface, forward and NAT IP packets and forward DNS requests
* to the best active upstream network interface. Note that if no upstream
* IP network interface is available, dhcp will still run and traffic will be
* allowed between the tethered devices and this device, though upstream net
* access will of course fail until an upstream network interface becomes
* active.
*
* This method requires the caller to hold either the
* {@link android.Manifest.permission#CHANGE_NETWORK_STATE} permission
* or the ability to modify system settings as determined by
* {@link android.provider.Settings.System#canWrite}. WARNING: New clients should not use this function. The only usages should be in PanService
* and WifiStateMachine which need direct access. All other clients should use
* {@link #startTethering} and {@link #stopTethering} which encapsulate proper provisioning
* logic. This method requires the caller to hold either the
* {@link android.Manifest.permission#CHANGE_NETWORK_STATE} permission
* or the ability to modify system settings as determined by
* {@link android.provider.Settings.System#canWrite}. WARNING: New clients should not use this function. The only usages should be in PanService
* and WifiStateMachine which need direct access. All other clients should use
* {@link #startTethering} and {@link #stopTethering} which encapsulate proper provisioning
* logic. If this app does not have permission to use this API, it will always
* return false rather than throw an exception. If the device has a hotspot provisioning app, the caller is required to hold the
* {@link android.Manifest.permission.TETHER_PRIVILEGED} permission. Otherwise, this method requires the caller to hold the ability to modify system
* settings as determined by {@link android.provider.Settings.System#canWrite}. This method requires the caller to hold either the
* {@link android.Manifest.permission#CHANGE_NETWORK_STATE} permission
* or the ability to modify system settings as determined by
* {@link android.provider.Settings.System#canWrite}. This method requires the caller to hold the permission
* {@link android.Manifest.permission#STATUS_BAR}.
*
* @param networkType The type of network you want to report on
* @param percentage The quality of the connection 0 is bad, 100 is good
* @deprecated Types are deprecated. Use {@link #reportNetworkConnectivity} instead.
* {@hide}
*/
public void reportInetCondition(int networkType, int percentage) {
printStackTrace();
try {
mService.reportInetCondition(networkType, percentage);
} catch (RemoteException e) {
throw e.rethrowFromSystemServer();
}
}
/**
* Report a problem network to the framework. This provides a hint to the system
* that there might be connectivity problems on this network and may cause
* the framework to re-evaluate network connectivity and/or switch to another
* network.
*
* @param network The {@link Network} the application was attempting to use
* or {@code null} to indicate the current default network.
* @deprecated Use {@link #reportNetworkConnectivity} which allows reporting both
* working and non-working connectivity.
*/
@Deprecated
public void reportBadNetwork(@Nullable Network network) {
printStackTrace();
try {
// One of these will be ignored because it matches system's current state.
// The other will trigger the necessary reevaluation.
mService.reportNetworkConnectivity(network, true);
mService.reportNetworkConnectivity(network, false);
} catch (RemoteException e) {
throw e.rethrowFromSystemServer();
}
}
/**
* Report to the framework whether a network has working connectivity.
* This provides a hint to the system that a particular network is providing
* working connectivity or not. In response the framework may re-evaluate
* the network's connectivity and might take further action thereafter.
*
* @param network The {@link Network} the application was attempting to use
* or {@code null} to indicate the current default network.
* @param hasConnectivity {@code true} if the application was able to successfully access the
* Internet using {@code network} or {@code false} if not.
*/
public void reportNetworkConnectivity(@Nullable Network network, boolean hasConnectivity) {
printStackTrace();
try {
mService.reportNetworkConnectivity(network, hasConnectivity);
} catch (RemoteException e) {
throw e.rethrowFromSystemServer();
}
}
/**
* Set a network-independent global http proxy. This is not normally what you want
* for typical HTTP proxies - they are general network dependent. However if you're
* doing something unusual like general internal filtering this may be useful. On
* a private network where the proxy is not accessible, you may break HTTP using this.
*
* @param p A {@link ProxyInfo} object defining the new global
* HTTP proxy. A {@code null} value will clear the global HTTP proxy.
* @hide
*/
@RequiresPermission(android.Manifest.permission.CONNECTIVITY_INTERNAL)
public void setGlobalProxy(ProxyInfo p) {
try {
mService.setGlobalProxy(p);
} catch (RemoteException e) {
throw e.rethrowFromSystemServer();
}
}
/**
* Retrieve any network-independent global HTTP proxy.
*
* @return {@link ProxyInfo} for the current global HTTP proxy or {@code null}
* if no global HTTP proxy is set.
* @hide
*/
public ProxyInfo getGlobalProxy() {
try {
return mService.getGlobalProxy();
} catch (RemoteException e) {
throw e.rethrowFromSystemServer();
}
}
/**
* Retrieve the global HTTP proxy, or if no global HTTP proxy is set, a
* network-specific HTTP proxy. If {@code network} is null, the
* network-specific proxy returned is the proxy of the default active
* network.
*
* @return {@link ProxyInfo} for the current global HTTP proxy, or if no
* global HTTP proxy is set, {@code ProxyInfo} for {@code network},
* or when {@code network} is {@code null},
* the {@code ProxyInfo} for the default active network. Returns
* {@code null} when no proxy applies or the caller doesn't have
* permission to use {@code network}.
* @hide
*/
public ProxyInfo getProxyForNetwork(Network network) {
try {
return mService.getProxyForNetwork(network);
} catch (RemoteException e) {
throw e.rethrowFromSystemServer();
}
}
/**
* Get the current default HTTP proxy settings. If a global proxy is set it will be returned,
* otherwise if this process is bound to a {@link Network} using
* {@link #bindProcessToNetwork} then that {@code Network}'s proxy is returned, otherwise
* the default network's proxy is returned.
*
* @return the {@link ProxyInfo} for the current HTTP proxy, or {@code null} if no
* HTTP proxy is active.
*/
@Nullable
public ProxyInfo getDefaultProxy() {
return getProxyForNetwork(getBoundNetworkForProcess());
}
/**
* Returns true if the hardware supports the given network type
* else it returns false. This doesn't indicate we have coverage
* or are authorized onto a network, just whether or not the
* hardware supports it. For example a GSM phone without a SIM
* should still return {@code true} for mobile data, but a wifi only
* tablet would return {@code false}.
*
* @param networkType The network type we'd like to check
* @return {@code true} if supported, else {@code false}
* @deprecated Types are deprecated. Use {@link NetworkCapabilities} instead.
* @hide
*/
@Deprecated
@RequiresPermission(android.Manifest.permission.ACCESS_NETWORK_STATE)
@UnsupportedAppUsage(maxTargetSdk = Build.VERSION_CODES.P, trackingBug = 130143562)
public boolean isNetworkSupported(int networkType) {
try {
return mService.isNetworkSupported(networkType);
} catch (RemoteException e) {
throw e.rethrowFromSystemServer();
}
}
/**
* Returns if the currently active data network is metered. A network is
* classified as metered when the user is sensitive to heavy data usage on
* that connection due to monetary costs, data limitations or
* battery/performance issues. You should check this before doing large
* data transfers, and warn the user or delay the operation until another
* network is available.
*
* @return {@code true} if large transfers should be avoided, otherwise
* {@code false}.
*/
@RequiresPermission(android.Manifest.permission.ACCESS_NETWORK_STATE)
public boolean isActiveNetworkMetered() {
try {
return mService.isActiveNetworkMetered();
} catch (RemoteException e) {
throw e.rethrowFromSystemServer();
}
}
/**
* If the LockdownVpn mechanism is enabled, updates the vpn
* with a reload of its profile.
*
* @return a boolean with {@code} indicating success
*
* This method can only be called by the system UID
* {@hide}
*/
public boolean updateLockdownVpn() {
try {
return mService.updateLockdownVpn();
} catch (RemoteException e) {
throw e.rethrowFromSystemServer();
}
}
/**
* Check mobile provisioning.
*
* @param suggestedTimeOutMs, timeout in milliseconds
*
* @return time out that will be used, maybe less that suggestedTimeOutMs
* -1 if an error.
*
* {@hide}
*/
public int checkMobileProvisioning(int suggestedTimeOutMs) {
int timeOutMs = -1;
try {
timeOutMs = mService.checkMobileProvisioning(suggestedTimeOutMs);
} catch (RemoteException e) {
throw e.rethrowFromSystemServer();
}
return timeOutMs;
}
/**
* Get the mobile provisioning url.
* {@hide}
*/
public String getMobileProvisioningUrl() {
try {
return mService.getMobileProvisioningUrl();
} catch (RemoteException e) {
throw e.rethrowFromSystemServer();
}
}
/**
* Set sign in error notification to visible or in visible
*
* {@hide}
* @deprecated Doesn't properly deal with multiple connected networks of the same type.
*/
@Deprecated
public void setProvisioningNotificationVisible(boolean visible, int networkType,
String action) {
try {
mService.setProvisioningNotificationVisible(visible, networkType, action);
} catch (RemoteException e) {
throw e.rethrowFromSystemServer();
}
}
/**
* Set the value for enabling/disabling airplane mode
*
* @param enable whether to enable airplane mode or not
*
* @hide
*/
@RequiresPermission(anyOf = {
android.Manifest.permission.NETWORK_SETTINGS,
android.Manifest.permission.NETWORK_SETUP_WIZARD,
android.Manifest.permission.NETWORK_STACK})
@SystemApi
public void setAirplaneMode(boolean enable) {
try {
mService.setAirplaneMode(enable);
} catch (RemoteException e) {
throw e.rethrowFromSystemServer();
}
}
/** {@hide} - returns the factory serial number */
@UnsupportedAppUsage
public int registerNetworkFactory(Messenger messenger, String name) {
try {
return mService.registerNetworkFactory(messenger, name);
} catch (RemoteException e) {
throw e.rethrowFromSystemServer();
}
}
/** {@hide} */
@UnsupportedAppUsage(maxTargetSdk = Build.VERSION_CODES.P, trackingBug = 115609023)
public void unregisterNetworkFactory(Messenger messenger) {
try {
mService.unregisterNetworkFactory(messenger);
} catch (RemoteException e) {
throw e.rethrowFromSystemServer();
}
}
// TODO : remove this method. It is a stopgap measure to help sheperding a number
// of dependent changes that would conflict throughout the automerger graph. Having this
// temporarily helps with the process of going through with all these dependent changes across
// the entire tree.
/**
* @hide
* Register a NetworkAgent with ConnectivityService.
* @return NetID corresponding to NetworkAgent.
*/
public int registerNetworkAgent(Messenger messenger, NetworkInfo ni, LinkProperties lp,
NetworkCapabilities nc, int score, NetworkMisc misc) {
return registerNetworkAgent(messenger, ni, lp, nc, score, misc,
NetworkFactory.SerialNumber.NONE);
}
/**
* @hide
* Register a NetworkAgent with ConnectivityService.
* @return NetID corresponding to NetworkAgent.
*/
public int registerNetworkAgent(Messenger messenger, NetworkInfo ni, LinkProperties lp,
NetworkCapabilities nc, int score, NetworkMisc misc, int factorySerialNumber) {
try {
return mService.registerNetworkAgent(messenger, ni, lp, nc, score, misc,
factorySerialNumber);
} catch (RemoteException e) {
throw e.rethrowFromSystemServer();
}
}
/**
* Base class for {@code NetworkRequest} callbacks. Used for notifications about network
* changes. Should be extended by applications wanting notifications.
*
* A {@code NetworkCallback} is registered by calling
* {@link #requestNetwork(NetworkRequest, NetworkCallback)},
* {@link #registerNetworkCallback(NetworkRequest, NetworkCallback)},
* or {@link #registerDefaultNetworkCallback(NetworkCallback)}. A {@code NetworkCallback} is
* unregistered by calling {@link #unregisterNetworkCallback(NetworkCallback)}.
* A {@code NetworkCallback} should be registered at most once at any time.
* A {@code NetworkCallback} that has been unregistered can be registered again.
*/
public static class NetworkCallback {
/**
* Called when the framework connects to a new network to evaluate whether it satisfies this
* request. If evaluation succeeds, this callback may be followed by an {@link #onAvailable}
* callback. There is no guarantee that this new network will satisfy any requests, or that
* the network will stay connected for longer than the time necessary to evaluate it.
*
* Most applications should not act on this callback, and should instead use
* {@link #onAvailable}. This callback is intended for use by applications that can assist
* the framework in properly evaluating the network — for example, an application that
* can automatically log in to a captive portal without user intervention.
*
* @param network The {@link Network} of the network that is being evaluated.
*
* @hide
*/
public void onPreCheck(@NonNull Network network) {}
/**
* Called when the framework connects and has declared a new network ready for use.
* This callback may be called more than once if the {@link Network} that is
* satisfying the request changes.
*
* @param network The {@link Network} of the satisfying network.
* @param networkCapabilities The {@link NetworkCapabilities} of the satisfying network.
* @param linkProperties The {@link LinkProperties} of the satisfying network.
* @param blocked Whether access to the {@link Network} is blocked due to system policy.
* @hide
*/
public void onAvailable(@NonNull Network network,
@NonNull NetworkCapabilities networkCapabilities,
@NonNull LinkProperties linkProperties, boolean blocked) {
// Internally only this method is called when a new network is available, and
// it calls the callback in the same way and order that older versions used
// to call so as not to change the behavior.
onAvailable(network);
if (!networkCapabilities.hasCapability(
NetworkCapabilities.NET_CAPABILITY_NOT_SUSPENDED)) {
onNetworkSuspended(network);
}
onCapabilitiesChanged(network, networkCapabilities);
onLinkPropertiesChanged(network, linkProperties);
onBlockedStatusChanged(network, blocked);
}
/**
* Called when the framework connects and has declared a new network ready for use.
* This callback may be called more than once if the {@link Network} that is
* satisfying the request changes. This will always immediately be followed by a
* call to {@link #onCapabilitiesChanged(Network, NetworkCapabilities)} then by a
* call to {@link #onLinkPropertiesChanged(Network, LinkProperties)}, and a call to
* {@link #onBlockedStatusChanged(Network, boolean)}.
*
* @param network The {@link Network} of the satisfying network.
*/
public void onAvailable(@NonNull Network network) {}
/**
* Called when the network is about to be disconnected. Often paired with an
* {@link NetworkCallback#onAvailable} call with the new replacement network
* for graceful handover. This may not be called if we have a hard loss
* (loss without warning). This may be followed by either a
* {@link NetworkCallback#onLost} call or a
* {@link NetworkCallback#onAvailable} call for this network depending
* on whether we lose or regain it.
*
* @param network The {@link Network} that is about to be disconnected.
* @param maxMsToLive The time in ms the framework will attempt to keep the
* network connected. Note that the network may suffer a
* hard loss at any time.
*/
public void onLosing(@NonNull Network network, int maxMsToLive) {}
/**
* Called when the framework has a hard loss of the network or when the
* graceful failure ends.
*
* @param network The {@link Network} lost.
*/
public void onLost(@NonNull Network network) {}
/**
* Called if no network is found in the timeout time specified in
* {@link #requestNetwork(NetworkRequest, NetworkCallback, int)} call or if the
* requested network request cannot be fulfilled (whether or not a timeout was
* specified). When this callback is invoked the associated
* {@link NetworkRequest} will have already been removed and released, as if
* {@link #unregisterNetworkCallback(NetworkCallback)} had been called.
*/
public void onUnavailable() {}
/**
* Called when the network the framework connected to for this request
* changes capabilities but still satisfies the stated need.
*
* @param network The {@link Network} whose capabilities have changed.
* @param networkCapabilities The new {@link android.net.NetworkCapabilities} for this
* network.
*/
public void onCapabilitiesChanged(@NonNull Network network,
@NonNull NetworkCapabilities networkCapabilities) {}
/**
* Called when the network the framework connected to for this request
* changes {@link LinkProperties}.
*
* @param network The {@link Network} whose link properties have changed.
* @param linkProperties The new {@link LinkProperties} for this network.
*/
public void onLinkPropertiesChanged(@NonNull Network network,
@NonNull LinkProperties linkProperties) {}
/**
* Called when the network the framework connected to for this request
* goes into {@link NetworkInfo.State#SUSPENDED}.
* This generally means that while the TCP connections are still live,
* temporarily network data fails to transfer. Specifically this is used
* on cellular networks to mask temporary outages when driving through
* a tunnel, etc.
* @hide
*/
public void onNetworkSuspended(@NonNull Network network) {}
/**
* Called when the network the framework connected to for this request
* returns from a {@link NetworkInfo.State#SUSPENDED} state. This should always be
* preceded by a matching {@link NetworkCallback#onNetworkSuspended} call.
* @hide
*/
public void onNetworkResumed(@NonNull Network network) {}
/**
* Called when access to the specified network is blocked or unblocked.
*
* @param network The {@link Network} whose blocked status has changed.
* @param blocked The blocked status of this {@link Network}.
*/
public void onBlockedStatusChanged(@NonNull Network network, boolean blocked) {}
private NetworkRequest networkRequest;
}
/**
* Constant error codes used by ConnectivityService to communicate about failures and errors
* across a Binder boundary.
* @hide
*/
public interface Errors {
int TOO_MANY_REQUESTS = 1;
}
/** @hide */
public static class TooManyRequestsException extends RuntimeException {}
private static RuntimeException convertServiceException(ServiceSpecificException e) {
switch (e.errorCode) {
case Errors.TOO_MANY_REQUESTS:
return new TooManyRequestsException();
default:
Log.w(TAG, "Unknown service error code " + e.errorCode);
return new RuntimeException(e);
}
}
private static final int BASE = Protocol.BASE_CONNECTIVITY_MANAGER;
/** @hide */
public static final int CALLBACK_PRECHECK = BASE + 1;
/** @hide */
public static final int CALLBACK_AVAILABLE = BASE + 2;
/** @hide arg1 = TTL */
public static final int CALLBACK_LOSING = BASE + 3;
/** @hide */
public static final int CALLBACK_LOST = BASE + 4;
/** @hide */
public static final int CALLBACK_UNAVAIL = BASE + 5;
/** @hide */
public static final int CALLBACK_CAP_CHANGED = BASE + 6;
/** @hide */
public static final int CALLBACK_IP_CHANGED = BASE + 7;
/** @hide obj = NetworkCapabilities, arg1 = seq number */
private static final int EXPIRE_LEGACY_REQUEST = BASE + 8;
/** @hide */
public static final int CALLBACK_SUSPENDED = BASE + 9;
/** @hide */
public static final int CALLBACK_RESUMED = BASE + 10;
/** @hide */
public static final int CALLBACK_BLK_CHANGED = BASE + 11;
/** @hide */
public static String getCallbackName(int whichCallback) {
switch (whichCallback) {
case CALLBACK_PRECHECK: return "CALLBACK_PRECHECK";
case CALLBACK_AVAILABLE: return "CALLBACK_AVAILABLE";
case CALLBACK_LOSING: return "CALLBACK_LOSING";
case CALLBACK_LOST: return "CALLBACK_LOST";
case CALLBACK_UNAVAIL: return "CALLBACK_UNAVAIL";
case CALLBACK_CAP_CHANGED: return "CALLBACK_CAP_CHANGED";
case CALLBACK_IP_CHANGED: return "CALLBACK_IP_CHANGED";
case EXPIRE_LEGACY_REQUEST: return "EXPIRE_LEGACY_REQUEST";
case CALLBACK_SUSPENDED: return "CALLBACK_SUSPENDED";
case CALLBACK_RESUMED: return "CALLBACK_RESUMED";
case CALLBACK_BLK_CHANGED: return "CALLBACK_BLK_CHANGED";
default:
return Integer.toString(whichCallback);
}
}
private class CallbackHandler extends Handler {
private static final String TAG = "ConnectivityManager.CallbackHandler";
private static final boolean DBG = false;
CallbackHandler(Looper looper) {
super(looper);
}
CallbackHandler(Handler handler) {
this(Preconditions.checkNotNull(handler, "Handler cannot be null.").getLooper());
}
@Override
public void handleMessage(Message message) {
if (message.what == EXPIRE_LEGACY_REQUEST) {
expireRequest((NetworkCapabilities) message.obj, message.arg1);
return;
}
final NetworkRequest request = getObject(message, NetworkRequest.class);
final Network network = getObject(message, Network.class);
final NetworkCallback callback;
synchronized (sCallbacks) {
callback = sCallbacks.get(request);
if (callback == null) {
Log.w(TAG,
"callback not found for " + getCallbackName(message.what) + " message");
return;
}
if (message.what == CALLBACK_UNAVAIL) {
sCallbacks.remove(request);
callback.networkRequest = ALREADY_UNREGISTERED;
}
}
if (DBG) {
Log.d(TAG, getCallbackName(message.what) + " for network " + network);
}
switch (message.what) {
case CALLBACK_PRECHECK: {
callback.onPreCheck(network);
break;
}
case CALLBACK_AVAILABLE: {
NetworkCapabilities cap = getObject(message, NetworkCapabilities.class);
LinkProperties lp = getObject(message, LinkProperties.class);
callback.onAvailable(network, cap, lp, message.arg1 != 0);
break;
}
case CALLBACK_LOSING: {
callback.onLosing(network, message.arg1);
break;
}
case CALLBACK_LOST: {
callback.onLost(network);
break;
}
case CALLBACK_UNAVAIL: {
callback.onUnavailable();
break;
}
case CALLBACK_CAP_CHANGED: {
NetworkCapabilities cap = getObject(message, NetworkCapabilities.class);
callback.onCapabilitiesChanged(network, cap);
break;
}
case CALLBACK_IP_CHANGED: {
LinkProperties lp = getObject(message, LinkProperties.class);
callback.onLinkPropertiesChanged(network, lp);
break;
}
case CALLBACK_SUSPENDED: {
callback.onNetworkSuspended(network);
break;
}
case CALLBACK_RESUMED: {
callback.onNetworkResumed(network);
break;
}
case CALLBACK_BLK_CHANGED: {
boolean blocked = message.arg1 != 0;
callback.onBlockedStatusChanged(network, blocked);
}
}
}
private It is presently unsupported to request a network with mutable
* {@link NetworkCapabilities} such as
* {@link NetworkCapabilities#NET_CAPABILITY_VALIDATED} or
* {@link NetworkCapabilities#NET_CAPABILITY_CAPTIVE_PORTAL}
* as these {@code NetworkCapabilities} represent states that a particular
* network may never attain, and whether a network will attain these states
* is unknown prior to bringing up the network so the framework does not
* know how to go about satisfing a request with these capabilities.
*
* This method requires the caller to hold either the
* {@link android.Manifest.permission#CHANGE_NETWORK_STATE} permission
* or the ability to modify system settings as determined by
* {@link android.provider.Settings.System#canWrite}. It is presently unsupported to request a network with mutable
* {@link NetworkCapabilities} such as
* {@link NetworkCapabilities#NET_CAPABILITY_VALIDATED} or
* {@link NetworkCapabilities#NET_CAPABILITY_CAPTIVE_PORTAL}
* as these {@code NetworkCapabilities} represent states that a particular
* network may never attain, and whether a network will attain these states
* is unknown prior to bringing up the network so the framework does not
* know how to go about satisfying a request with these capabilities.
*
* This method requires the caller to hold either the
* {@link android.Manifest.permission#CHANGE_NETWORK_STATE} permission
* or the ability to modify system settings as determined by
* {@link android.provider.Settings.System#canWrite}. Do not use this method to poll for the existence of specific networks (e.g. with a small
* timeout) - {@link #registerNetworkCallback(NetworkRequest, NetworkCallback)} is provided
* for that purpose. Calling this method will attempt to bring up the requested network.
*
* This method requires the caller to hold either the
* {@link android.Manifest.permission#CHANGE_NETWORK_STATE} permission
* or the ability to modify system settings as determined by
* {@link android.provider.Settings.System#canWrite}. Do not use this method to poll for the existence of specific networks (e.g. with a small
* timeout) - {@link #registerNetworkCallback(NetworkRequest, NetworkCallback)} is provided
* for that purpose. Calling this method will attempt to bring up the requested network.
*
* This method requires the caller to hold either the
* {@link android.Manifest.permission#CHANGE_NETWORK_STATE} permission
* or the ability to modify system settings as determined by
* {@link android.provider.Settings.System#canWrite}.
* Note that if you intend to invoke {@link Network#openConnection(java.net.URL)}
* then you must get a ConnectivityManager instance before doing so.
*/
public static final String EXTRA_NETWORK = "android.net.extra.NETWORK";
/**
* The lookup key for a {@link NetworkRequest} object included with the intent after
* successfully finding a network for the applications request. Retrieve it with
* {@link android.content.Intent#getParcelableExtra(String)}.
*/
public static final String EXTRA_NETWORK_REQUEST = "android.net.extra.NETWORK_REQUEST";
/**
* Request a network to satisfy a set of {@link android.net.NetworkCapabilities}.
*
* This function behaves identically to the version that takes a NetworkCallback, but instead
* of {@link NetworkCallback} a {@link PendingIntent} is used. This means
* the request may outlive the calling application and get called back when a suitable
* network is found.
*
* The operation is an Intent broadcast that goes to a broadcast receiver that
* you registered with {@link Context#registerReceiver} or through the
* <receiver> tag in an AndroidManifest.xml file
*
* The operation Intent is delivered with two extras, a {@link Network} typed
* extra called {@link #EXTRA_NETWORK} and a {@link NetworkRequest}
* typed extra called {@link #EXTRA_NETWORK_REQUEST} containing
* the original requests parameters. It is important to create a new,
* {@link NetworkCallback} based request before completing the processing of the
* Intent to reserve the network or it will be released shortly after the Intent
* is processed.
*
* If there is already a request for this Intent registered (with the equality of
* two Intents defined by {@link Intent#filterEquals}), then it will be removed and
* replaced by this one, effectively releasing the previous {@link NetworkRequest}.
*
* The request may be released normally by calling
* {@link #releaseNetworkRequest(android.app.PendingIntent)}.
* It is presently unsupported to request a network with either
* {@link NetworkCapabilities#NET_CAPABILITY_VALIDATED} or
* {@link NetworkCapabilities#NET_CAPABILITY_CAPTIVE_PORTAL}
* as these {@code NetworkCapabilities} represent states that a particular
* network may never attain, and whether a network will attain these states
* is unknown prior to bringing up the network so the framework does not
* know how to go about satisfying a request with these capabilities.
*
* This method requires the caller to hold either the
* {@link android.Manifest.permission#CHANGE_NETWORK_STATE} permission
* or the ability to modify system settings as determined by
* {@link android.provider.Settings.System#canWrite}.
* This method has the same behavior as
* {@link #unregisterNetworkCallback(android.app.PendingIntent)} with respect to
* releasing network resources and disconnecting.
*
* @param operation A PendingIntent equal (as defined by {@link Intent#filterEquals}) to the
* PendingIntent passed to
* {@link #requestNetwork(NetworkRequest, android.app.PendingIntent)} with the
* corresponding NetworkRequest you'd like to remove. Cannot be null.
*/
public void releaseNetworkRequest(@NonNull PendingIntent operation) {
printStackTrace();
checkPendingIntentNotNull(operation);
try {
mService.releasePendingNetworkRequest(operation);
} catch (RemoteException e) {
throw e.rethrowFromSystemServer();
}
}
private static void checkPendingIntentNotNull(PendingIntent intent) {
Preconditions.checkNotNull(intent, "PendingIntent cannot be null.");
}
private static void checkCallbackNotNull(NetworkCallback callback) {
Preconditions.checkNotNull(callback, "null NetworkCallback");
}
private static void checkTimeout(int timeoutMs) {
Preconditions.checkArgumentPositive(timeoutMs, "timeoutMs must be strictly positive.");
}
/**
* Registers to receive notifications about all networks which satisfy the given
* {@link NetworkRequest}. The callbacks will continue to be called until
* either the application exits or {@link #unregisterNetworkCallback(NetworkCallback)} is
* called.
*
* @param request {@link NetworkRequest} describing this request.
* @param networkCallback The {@link NetworkCallback} that the system will call as suitable
* networks change state.
* The callback is invoked on the default internal Handler.
*/
@RequiresPermission(android.Manifest.permission.ACCESS_NETWORK_STATE)
public void registerNetworkCallback(@NonNull NetworkRequest request,
@NonNull NetworkCallback networkCallback) {
registerNetworkCallback(request, networkCallback, getDefaultHandler());
}
/**
* Registers to receive notifications about all networks which satisfy the given
* {@link NetworkRequest}. The callbacks will continue to be called until
* either the application exits or {@link #unregisterNetworkCallback(NetworkCallback)} is
* called.
*
* @param request {@link NetworkRequest} describing this request.
* @param networkCallback The {@link NetworkCallback} that the system will call as suitable
* networks change state.
* @param handler {@link Handler} to specify the thread upon which the callback will be invoked.
*/
@RequiresPermission(android.Manifest.permission.ACCESS_NETWORK_STATE)
public void registerNetworkCallback(@NonNull NetworkRequest request,
@NonNull NetworkCallback networkCallback, @NonNull Handler handler) {
CallbackHandler cbHandler = new CallbackHandler(handler);
NetworkCapabilities nc = request.networkCapabilities;
sendRequestForNetwork(nc, networkCallback, 0, LISTEN, TYPE_NONE, cbHandler);
}
/**
* Registers a PendingIntent to be sent when a network is available which satisfies the given
* {@link NetworkRequest}.
*
* This function behaves identically to the version that takes a NetworkCallback, but instead
* of {@link NetworkCallback} a {@link PendingIntent} is used. This means
* the request may outlive the calling application and get called back when a suitable
* network is found.
*
* The operation is an Intent broadcast that goes to a broadcast receiver that
* you registered with {@link Context#registerReceiver} or through the
* <receiver> tag in an AndroidManifest.xml file
*
* The operation Intent is delivered with two extras, a {@link Network} typed
* extra called {@link #EXTRA_NETWORK} and a {@link NetworkRequest}
* typed extra called {@link #EXTRA_NETWORK_REQUEST} containing
* the original requests parameters.
*
* If there is already a request for this Intent registered (with the equality of
* two Intents defined by {@link Intent#filterEquals}), then it will be removed and
* replaced by this one, effectively releasing the previous {@link NetworkRequest}.
*
* The request may be released normally by calling
* {@link #unregisterNetworkCallback(android.app.PendingIntent)}.
* @param request {@link NetworkRequest} describing this request.
* @param operation Action to perform when the network is available (corresponds
* to the {@link NetworkCallback#onAvailable} call. Typically
* comes from {@link PendingIntent#getBroadcast}. Cannot be null.
*/
@RequiresPermission(android.Manifest.permission.ACCESS_NETWORK_STATE)
public void registerNetworkCallback(@NonNull NetworkRequest request,
@NonNull PendingIntent operation) {
printStackTrace();
checkPendingIntentNotNull(operation);
try {
mService.pendingListenForNetwork(request.networkCapabilities, operation);
} catch (RemoteException e) {
throw e.rethrowFromSystemServer();
} catch (ServiceSpecificException e) {
throw convertServiceException(e);
}
}
/**
* Registers to receive notifications about changes in the system default network. The callbacks
* will continue to be called until either the application exits or
* {@link #unregisterNetworkCallback(NetworkCallback)} is called.
*
* @param networkCallback The {@link NetworkCallback} that the system will call as the
* system default network changes.
* The callback is invoked on the default internal Handler.
*/
@RequiresPermission(android.Manifest.permission.ACCESS_NETWORK_STATE)
public void registerDefaultNetworkCallback(@NonNull NetworkCallback networkCallback) {
registerDefaultNetworkCallback(networkCallback, getDefaultHandler());
}
/**
* Registers to receive notifications about changes in the system default network. The callbacks
* will continue to be called until either the application exits or
* {@link #unregisterNetworkCallback(NetworkCallback)} is called.
*
* @param networkCallback The {@link NetworkCallback} that the system will call as the
* system default network changes.
* @param handler {@link Handler} to specify the thread upon which the callback will be invoked.
*/
@RequiresPermission(android.Manifest.permission.ACCESS_NETWORK_STATE)
public void registerDefaultNetworkCallback(@NonNull NetworkCallback networkCallback,
@NonNull Handler handler) {
// This works because if the NetworkCapabilities are null,
// ConnectivityService takes them from the default request.
//
// Since the capabilities are exactly the same as the default request's
// capabilities, this request is guaranteed, at all times, to be
// satisfied by the same network, if any, that satisfies the default
// request, i.e., the system default network.
CallbackHandler cbHandler = new CallbackHandler(handler);
sendRequestForNetwork(null /* NetworkCapabilities need */, networkCallback, 0,
REQUEST, TYPE_NONE, cbHandler);
}
/**
* Requests bandwidth update for a given {@link Network} and returns whether the update request
* is accepted by ConnectivityService. Once accepted, ConnectivityService will poll underlying
* network connection for updated bandwidth information. The caller will be notified via
* {@link ConnectivityManager.NetworkCallback} if there is an update. Notice that this
* method assumes that the caller has previously called
* {@link #registerNetworkCallback(NetworkRequest, NetworkCallback)} to listen for network
* changes.
*
* @param network {@link Network} specifying which network you're interested.
* @return {@code true} on success, {@code false} if the {@link Network} is no longer valid.
*/
public boolean requestBandwidthUpdate(@NonNull Network network) {
try {
return mService.requestBandwidthUpdate(network);
} catch (RemoteException e) {
throw e.rethrowFromSystemServer();
}
}
/**
* Unregisters a {@code NetworkCallback} and possibly releases networks originating from
* {@link #requestNetwork(NetworkRequest, NetworkCallback)} and
* {@link #registerNetworkCallback(NetworkRequest, NetworkCallback)} calls.
* If the given {@code NetworkCallback} had previously been used with
* {@code #requestNetwork}, any networks that had been connected to only to satisfy that request
* will be disconnected.
*
* Notifications that would have triggered that {@code NetworkCallback} will immediately stop
* triggering it as soon as this call returns.
*
* @param networkCallback The {@link NetworkCallback} used when making the request.
*/
public void unregisterNetworkCallback(@NonNull NetworkCallback networkCallback) {
printStackTrace();
checkCallbackNotNull(networkCallback);
final List This endpoint is exclusively for use by the NetworkStack and is protected by the
* corresponding permission.
* @param network Network on which the captive portal was detected.
* @param appExtras Extras to include in the app start intent.
* @hide
*/
@SystemApi
@TestApi
@RequiresPermission(NetworkStack.PERMISSION_MAINLINE_NETWORK_STACK)
public void startCaptivePortalApp(@NonNull Network network, @NonNull Bundle appExtras) {
try {
mService.startCaptivePortalAppInternal(network, appExtras);
} catch (RemoteException e) {
throw e.rethrowFromSystemServer();
}
}
/**
* Determine whether the device is configured to avoid bad wifi.
* @hide
*/
@SystemApi
@RequiresPermission(anyOf = {
NetworkStack.PERMISSION_MAINLINE_NETWORK_STACK,
android.Manifest.permission.NETWORK_STACK})
public boolean shouldAvoidBadWifi() {
try {
return mService.shouldAvoidBadWifi();
} catch (RemoteException e) {
throw e.rethrowFromSystemServer();
}
}
/**
* It is acceptable to briefly use multipath data to provide seamless connectivity for
* time-sensitive user-facing operations when the system default network is temporarily
* unresponsive. The amount of data should be limited (less than one megabyte for every call to
* this method), and the operation should be infrequent to ensure that data usage is limited.
*
* An example of such an operation might be a time-sensitive foreground activity, such as a
* voice command, that the user is performing while walking out of range of a Wi-Fi network.
*/
public static final int MULTIPATH_PREFERENCE_HANDOVER = 1 << 0;
/**
* It is acceptable to use small amounts of multipath data on an ongoing basis to provide
* a backup channel for traffic that is primarily going over another network.
*
* An example might be maintaining backup connections to peers or servers for the purpose of
* fast fallback if the default network is temporarily unresponsive or disconnects. The traffic
* on backup paths should be negligible compared to the traffic on the main path.
*/
public static final int MULTIPATH_PREFERENCE_RELIABILITY = 1 << 1;
/**
* It is acceptable to use metered data to improve network latency and performance.
*/
public static final int MULTIPATH_PREFERENCE_PERFORMANCE = 1 << 2;
/**
* Return value to use for unmetered networks. On such networks we currently set all the flags
* to true.
* @hide
*/
public static final int MULTIPATH_PREFERENCE_UNMETERED =
MULTIPATH_PREFERENCE_HANDOVER |
MULTIPATH_PREFERENCE_RELIABILITY |
MULTIPATH_PREFERENCE_PERFORMANCE;
/** @hide */
@Retention(RetentionPolicy.SOURCE)
@IntDef(flag = true, value = {
MULTIPATH_PREFERENCE_HANDOVER,
MULTIPATH_PREFERENCE_RELIABILITY,
MULTIPATH_PREFERENCE_PERFORMANCE,
})
public @interface MultipathPreference {
}
/**
* Provides a hint to the calling application on whether it is desirable to use the
* multinetwork APIs (e.g., {@link Network#openConnection}, {@link Network#bindSocket}, etc.)
* for multipath data transfer on this network when it is not the system default network.
* Applications desiring to use multipath network protocols should call this method before
* each such operation.
*
* @param network The network on which the application desires to use multipath data.
* If {@code null}, this method will return the a preference that will generally
* apply to metered networks.
* @return a bitwise OR of zero or more of the {@code MULTIPATH_PREFERENCE_*} constants.
*/
@RequiresPermission(android.Manifest.permission.ACCESS_NETWORK_STATE)
public @MultipathPreference int getMultipathPreference(@Nullable Network network) {
try {
return mService.getMultipathPreference(network);
} catch (RemoteException e) {
throw e.rethrowFromSystemServer();
}
}
/**
* Resets all connectivity manager settings back to factory defaults.
* @hide
*/
public void factoryReset() {
try {
mService.factoryReset();
} catch (RemoteException e) {
throw e.rethrowFromSystemServer();
}
}
/**
* Binds the current process to {@code network}. All Sockets created in the future
* (and not explicitly bound via a bound SocketFactory from
* {@link Network#getSocketFactory() Network.getSocketFactory()}) will be bound to
* {@code network}. All host name resolutions will be limited to {@code network} as well.
* Note that if {@code network} ever disconnects, all Sockets created in this way will cease to
* work and all host name resolutions will fail. This is by design so an application doesn't
* accidentally use Sockets it thinks are still bound to a particular {@link Network}.
* To clear binding pass {@code null} for {@code network}. Using individually bound
* Sockets created by Network.getSocketFactory().createSocket() and
* performing network-specific host name resolutions via
* {@link Network#getAllByName Network.getAllByName} is preferred to calling
* {@code bindProcessToNetwork}.
*
* @param network The {@link Network} to bind the current process to, or {@code null} to clear
* the current binding.
* @return {@code true} on success, {@code false} if the {@link Network} is no longer valid.
*/
public boolean bindProcessToNetwork(@Nullable Network network) {
// Forcing callers to call through non-static function ensures ConnectivityManager
// instantiated.
return setProcessDefaultNetwork(network);
}
/**
* Binds the current process to {@code network}. All Sockets created in the future
* (and not explicitly bound via a bound SocketFactory from
* {@link Network#getSocketFactory() Network.getSocketFactory()}) will be bound to
* {@code network}. All host name resolutions will be limited to {@code network} as well.
* Note that if {@code network} ever disconnects, all Sockets created in this way will cease to
* work and all host name resolutions will fail. This is by design so an application doesn't
* accidentally use Sockets it thinks are still bound to a particular {@link Network}.
* To clear binding pass {@code null} for {@code network}. Using individually bound
* Sockets created by Network.getSocketFactory().createSocket() and
* performing network-specific host name resolutions via
* {@link Network#getAllByName Network.getAllByName} is preferred to calling
* {@code setProcessDefaultNetwork}.
*
* @param network The {@link Network} to bind the current process to, or {@code null} to clear
* the current binding.
* @return {@code true} on success, {@code false} if the {@link Network} is no longer valid.
* @deprecated This function can throw {@link IllegalStateException}. Use
* {@link #bindProcessToNetwork} instead. {@code bindProcessToNetwork}
* is a direct replacement.
*/
@Deprecated
public static boolean setProcessDefaultNetwork(@Nullable Network network) {
int netId = (network == null) ? NETID_UNSET : network.netId;
boolean isSameNetId = (netId == NetworkUtils.getBoundNetworkForProcess());
if (netId != NETID_UNSET) {
netId = network.getNetIdForResolv();
}
if (!NetworkUtils.bindProcessToNetwork(netId)) {
return false;
}
if (!isSameNetId) {
// Set HTTP proxy system properties to match network.
// TODO: Deprecate this static method and replace it with a non-static version.
try {
Proxy.setHttpProxySystemProperty(getInstance().getDefaultProxy());
} catch (SecurityException e) {
// The process doesn't have ACCESS_NETWORK_STATE, so we can't fetch the proxy.
Log.e(TAG, "Can't set proxy properties", e);
}
// Must flush DNS cache as new network may have different DNS resolutions.
InetAddress.clearDnsCache();
// Must flush socket pool as idle sockets will be bound to previous network and may
// cause subsequent fetches to be performed on old network.
NetworkEventDispatcher.getInstance().onNetworkConfigurationChanged();
}
return true;
}
/**
* Returns the {@link Network} currently bound to this process via
* {@link #bindProcessToNetwork}, or {@code null} if no {@link Network} is explicitly bound.
*
* @return {@code Network} to which this process is bound, or {@code null}.
*/
@Nullable
public Network getBoundNetworkForProcess() {
// Forcing callers to call thru non-static function ensures ConnectivityManager
// instantiated.
return getProcessDefaultNetwork();
}
/**
* Returns the {@link Network} currently bound to this process via
* {@link #bindProcessToNetwork}, or {@code null} if no {@link Network} is explicitly bound.
*
* @return {@code Network} to which this process is bound, or {@code null}.
* @deprecated Using this function can lead to other functions throwing
* {@link IllegalStateException}. Use {@link #getBoundNetworkForProcess} instead.
* {@code getBoundNetworkForProcess} is a direct replacement.
*/
@Deprecated
@Nullable
public static Network getProcessDefaultNetwork() {
int netId = NetworkUtils.getBoundNetworkForProcess();
if (netId == NETID_UNSET) return null;
return new Network(netId);
}
private void unsupportedStartingFrom(int version) {
if (Process.myUid() == Process.SYSTEM_UID) {
// The getApplicationInfo() call we make below is not supported in system context. Let
// the call through here, and rely on the fact that ConnectivityService will refuse to
// allow the system to use these APIs anyway.
return;
}
if (mContext.getApplicationInfo().targetSdkVersion >= version) {
throw new UnsupportedOperationException(
"This method is not supported in target SDK version " + version + " and above");
}
}
// Checks whether the calling app can use the legacy routing API (startUsingNetworkFeature,
// stopUsingNetworkFeature, requestRouteToHost), and if not throw UnsupportedOperationException.
// TODO: convert the existing system users (Tethering, GnssLocationProvider) to the new APIs and
// remove these exemptions. Note that this check is not secure, and apps can still access these
// functions by accessing ConnectivityService directly. However, it should be clear that doing
// so is unsupported and may break in the future. http://b/22728205
private void checkLegacyRoutingApiAccess() {
unsupportedStartingFrom(VERSION_CODES.M);
}
/**
* Binds host resolutions performed by this process to {@code network}.
* {@link #bindProcessToNetwork} takes precedence over this setting.
*
* @param network The {@link Network} to bind host resolutions from the current process to, or
* {@code null} to clear the current binding.
* @return {@code true} on success, {@code false} if the {@link Network} is no longer valid.
* @hide
* @deprecated This is strictly for legacy usage to support {@link #startUsingNetworkFeature}.
*/
@Deprecated
@UnsupportedAppUsage
public static boolean setProcessDefaultNetworkForHostResolution(Network network) {
return NetworkUtils.bindProcessToNetworkForHostResolution(
(network == null) ? NETID_UNSET : network.getNetIdForResolv());
}
/**
* Device is not restricting metered network activity while application is running on
* background.
*/
public static final int RESTRICT_BACKGROUND_STATUS_DISABLED = 1;
/**
* Device is restricting metered network activity while application is running on background,
* but application is allowed to bypass it.
*
* In this state, application should take action to mitigate metered network access.
* For example, a music streaming application should switch to a low-bandwidth bitrate.
*/
public static final int RESTRICT_BACKGROUND_STATUS_WHITELISTED = 2;
/**
* Device is restricting metered network activity while application is running on background.
*
* In this state, application should not try to use the network while running on background,
* because it would be denied.
*/
public static final int RESTRICT_BACKGROUND_STATUS_ENABLED = 3;
/**
* A change in the background metered network activity restriction has occurred.
*
* Applications should call {@link #getRestrictBackgroundStatus()} to check if the restriction
* applies to them.
*
* This is only sent to registered receivers, not manifest receivers.
*/
@SdkConstant(SdkConstantType.BROADCAST_INTENT_ACTION)
public static final String ACTION_RESTRICT_BACKGROUND_CHANGED =
"android.net.conn.RESTRICT_BACKGROUND_CHANGED";
/** @hide */
@Retention(RetentionPolicy.SOURCE)
@IntDef(flag = false, value = {
RESTRICT_BACKGROUND_STATUS_DISABLED,
RESTRICT_BACKGROUND_STATUS_WHITELISTED,
RESTRICT_BACKGROUND_STATUS_ENABLED,
})
public @interface RestrictBackgroundStatus {
}
private INetworkPolicyManager getNetworkPolicyManager() {
synchronized (this) {
if (mNPManager != null) {
return mNPManager;
}
mNPManager = INetworkPolicyManager.Stub.asInterface(ServiceManager
.getService(Context.NETWORK_POLICY_SERVICE));
return mNPManager;
}
}
/**
* Determines if the calling application is subject to metered network restrictions while
* running on background.
*
* @return {@link #RESTRICT_BACKGROUND_STATUS_DISABLED},
* {@link #RESTRICT_BACKGROUND_STATUS_ENABLED},
* or {@link #RESTRICT_BACKGROUND_STATUS_WHITELISTED}
*/
public @RestrictBackgroundStatus int getRestrictBackgroundStatus() {
try {
return getNetworkPolicyManager().getRestrictBackgroundByCaller();
} catch (RemoteException e) {
throw e.rethrowFromSystemServer();
}
}
/**
* The network watchlist is a list of domains and IP addresses that are associated with
* potentially harmful apps. This method returns the SHA-256 of the watchlist config file
* currently used by the system for validation purposes.
*
* @return Hash of network watchlist config file. Null if config does not exist.
*/
@Nullable
public byte[] getNetworkWatchlistConfigHash() {
try {
return mService.getNetworkWatchlistConfigHash();
} catch (RemoteException e) {
Log.e(TAG, "Unable to get watchlist config hash");
throw e.rethrowFromSystemServer();
}
}
/**
* Returns the {@code uid} of the owner of a network connection.
*
* @param protocol The protocol of the connection. Only {@code IPPROTO_TCP} and
* {@code IPPROTO_UDP} currently supported.
* @param local The local {@link InetSocketAddress} of a connection.
* @param remote The remote {@link InetSocketAddress} of a connection.
*
* @return {@code uid} if the connection is found and the app has permission to observe it
* (e.g., if it is associated with the calling VPN app's tunnel) or
* {@link android.os.Process#INVALID_UID} if the connection is not found.
* Throws {@link SecurityException} if the caller is not the active VPN for the current user.
* Throws {@link IllegalArgumentException} if an unsupported protocol is requested.
*/
public int getConnectionOwnerUid(int protocol, @NonNull InetSocketAddress local,
@NonNull InetSocketAddress remote) {
ConnectionInfo connectionInfo = new ConnectionInfo(protocol, local, remote);
try {
return mService.getConnectionOwnerUid(connectionInfo);
} catch (RemoteException e) {
throw e.rethrowFromSystemServer();
}
}
private void printStackTrace() {
if (DEBUG) {
final StackTraceElement[] callStack = Thread.currentThread().getStackTrace();
final StringBuffer sb = new StringBuffer();
for (int i = 3; i < callStack.length; i++) {
final String stackTrace = callStack[i].toString();
if (stackTrace == null || stackTrace.contains("android.os")) {
break;
}
sb.append(" [").append(stackTrace).append("]");
}
Log.d(TAG, "StackLog:" + sb.toString());
}
}
}