正在查看: Telegram v11.13.0 应用的 NetworkMonitorAutoDetect.java JAVA 源代码文件
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Telegram v11.13.0 - NetworkMonitorAutoDetect.java 源代码
package org.webrtc;
import android.content.BroadcastReceiver;
import android.content.Context;
import android.content.Intent;
import android.content.IntentFilter;
import android.net.ConnectivityManager;
import android.net.LinkProperties;
import android.net.Network;
import android.net.NetworkCapabilities;
import android.net.NetworkInfo;
import android.net.NetworkRequest;
import android.net.wifi.WifiInfo;
import android.net.wifi.p2p.WifiP2pGroup;
import android.net.wifi.p2p.WifiP2pManager;
import android.os.Build;
import com.android.billingclient.api.zzg$;
import com.google.android.gms.internal.cast.zzdd$;
import java.net.InetAddress;
import java.net.NetworkInterface;
import java.net.SocketException;
import java.util.ArrayList;
import java.util.Collections;
import java.util.Iterator;
import java.util.List;
import org.telegram.messenger.voip.JNIUtilities$;
import org.webrtc.NetworkChangeDetector;
import org.webrtc.NetworkMonitorAutoDetect;
import org.webrtc.PeerConnectionFactory;
import org.webrtc.audio.WebRtcAudioRecord;
public class NetworkMonitorAutoDetect extends BroadcastReceiver implements NetworkChangeDetector {
private static final long INVALID_NET_ID = -1;
private static final String TAG = "NetworkMonitorAutoDetect";
private final ConnectivityManager.NetworkCallback allNetworkCallback;
private NetworkChangeDetector.ConnectionType connectionType;
private ConnectivityManagerDelegate connectivityManagerDelegate;
private final Context context;
private final IntentFilter intentFilter;
private boolean isRegistered;
private final ConnectivityManager.NetworkCallback mobileNetworkCallback;
private final NetworkChangeDetector.Observer observer;
private WifiDirectManagerDelegate wifiDirectManagerDelegate;
private WifiManagerDelegate wifiManagerDelegate;
private String wifiSSID;
static class ConnectivityManagerDelegate {
private final ConnectivityManager connectivityManager;
ConnectivityManagerDelegate() {
this.connectivityManager = null;
}
ConnectivityManagerDelegate(Context context) {
this.connectivityManager = (ConnectivityManager) context.getSystemService("connectivity");
}
private NetworkState getNetworkState(NetworkInfo networkInfo) {
return (networkInfo == null || !networkInfo.isConnected()) ? new NetworkState(false, -1, -1, -1, -1) : new NetworkState(true, networkInfo.getType(), networkInfo.getSubtype(), -1, -1);
}
public NetworkChangeDetector.NetworkInformation networkToInfo(Network network) {
ConnectivityManager connectivityManager;
String network2;
String network3;
String network4;
String network5;
if (network == null || (connectivityManager = this.connectivityManager) == null) {
return null;
}
LinkProperties m = zzdd$.ExternalSyntheticApiModelOutline1.m(connectivityManager, network);
if (m == null) {
StringBuilder sb = new StringBuilder();
sb.append("Detected unknown network: ");
network5 = network.toString();
sb.append(network5);
Logging.w(NetworkMonitorAutoDetect.TAG, sb.toString());
return null;
}
if (JNIUtilities$.ExternalSyntheticApiModelOutline3.m(m) == null) {
StringBuilder sb2 = new StringBuilder();
sb2.append("Null interface name for network ");
network4 = network.toString();
sb2.append(network4);
Logging.w(NetworkMonitorAutoDetect.TAG, sb2.toString());
return null;
}
NetworkState networkState = getNetworkState(network);
NetworkChangeDetector.ConnectionType connectionType = NetworkMonitorAutoDetect.getConnectionType(networkState);
if (connectionType == NetworkChangeDetector.ConnectionType.CONNECTION_NONE) {
StringBuilder sb3 = new StringBuilder();
sb3.append("Network ");
network3 = network.toString();
sb3.append(network3);
sb3.append(" is disconnected");
Logging.d(NetworkMonitorAutoDetect.TAG, sb3.toString());
return null;
}
if (connectionType == NetworkChangeDetector.ConnectionType.CONNECTION_UNKNOWN || connectionType == NetworkChangeDetector.ConnectionType.CONNECTION_UNKNOWN_CELLULAR) {
StringBuilder sb4 = new StringBuilder();
sb4.append("Network ");
network2 = network.toString();
sb4.append(network2);
sb4.append(" connection type is ");
sb4.append(connectionType);
sb4.append(" because it has type ");
sb4.append(networkState.getNetworkType());
sb4.append(" and subtype ");
sb4.append(networkState.getNetworkSubType());
Logging.d(NetworkMonitorAutoDetect.TAG, sb4.toString());
}
return new NetworkChangeDetector.NetworkInformation(JNIUtilities$.ExternalSyntheticApiModelOutline3.m(m), connectionType, NetworkMonitorAutoDetect.getUnderlyingConnectionTypeForVpn(networkState), NetworkMonitorAutoDetect.networkToNetId(network), getIPAddresses(m));
}
List<NetworkChangeDetector.NetworkInformation> getActiveNetworkList() {
if (!supportNetworkCallback()) {
return null;
}
ArrayList arrayList = new ArrayList();
for (Network network : getAllNetworks()) {
NetworkChangeDetector.NetworkInformation networkToInfo = networkToInfo(network);
if (networkToInfo != null) {
arrayList.add(networkToInfo);
}
}
return arrayList;
}
Network[] getAllNetworks() {
Network[] allNetworks;
ConnectivityManager connectivityManager = this.connectivityManager;
if (connectivityManager == null) {
return new Network[0];
}
allNetworks = connectivityManager.getAllNetworks();
return allNetworks;
}
long getDefaultNetId() {
throw new UnsupportedOperationException("Method not decompiled: org.webrtc.NetworkMonitorAutoDetect.ConnectivityManagerDelegate.getDefaultNetId():long");
}
NetworkChangeDetector.IPAddress[] getIPAddresses(LinkProperties linkProperties) {
NetworkChangeDetector.IPAddress[] iPAddressArr = new NetworkChangeDetector.IPAddress[JNIUtilities$.ExternalSyntheticApiModelOutline0.m(linkProperties).size()];
Iterator it = JNIUtilities$.ExternalSyntheticApiModelOutline0.m(linkProperties).iterator();
int i = 0;
while (it.hasNext()) {
iPAddressArr[i] = new NetworkChangeDetector.IPAddress(JNIUtilities$.ExternalSyntheticApiModelOutline2.m(JNIUtilities$.ExternalSyntheticApiModelOutline1.m(it.next())).getAddress());
i++;
}
return iPAddressArr;
}
NetworkState getNetworkState() {
ConnectivityManager connectivityManager = this.connectivityManager;
return connectivityManager == null ? new NetworkState(false, -1, -1, -1, -1) : getNetworkState(connectivityManager.getActiveNetworkInfo());
}
NetworkState getNetworkState(Network network) {
ConnectivityManager connectivityManager;
NetworkInfo networkInfo;
boolean equals;
NetworkInfo activeNetworkInfo;
NetworkCapabilities networkCapabilities;
boolean hasTransport;
String network2;
if (network == null || (connectivityManager = this.connectivityManager) == null) {
return new NetworkState(false, -1, -1, -1, -1);
}
networkInfo = connectivityManager.getNetworkInfo(network);
if (networkInfo == null) {
StringBuilder sb = new StringBuilder();
sb.append("Couldn't retrieve information from network ");
network2 = network.toString();
sb.append(network2);
Logging.w(NetworkMonitorAutoDetect.TAG, sb.toString());
return new NetworkState(false, -1, -1, -1, -1);
}
if (networkInfo.getType() != 17) {
networkCapabilities = this.connectivityManager.getNetworkCapabilities(network);
if (networkCapabilities != null) {
hasTransport = networkCapabilities.hasTransport(4);
if (hasTransport) {
return new NetworkState(networkInfo.isConnected(), 17, -1, networkInfo.getType(), networkInfo.getSubtype());
}
}
return getNetworkState(networkInfo);
}
if (networkInfo.getType() != 17) {
return getNetworkState(networkInfo);
}
if (Build.VERSION.SDK_INT >= 23) {
equals = network.equals(zzdd$.ExternalSyntheticApiModelOutline0.m(this.connectivityManager));
if (equals && (activeNetworkInfo = this.connectivityManager.getActiveNetworkInfo()) != null && activeNetworkInfo.getType() != 17) {
return new NetworkState(networkInfo.isConnected(), 17, -1, activeNetworkInfo.getType(), activeNetworkInfo.getSubtype());
}
}
return new NetworkState(networkInfo.isConnected(), 17, -1, -1, -1);
}
boolean hasInternetCapability(android.net.Network r3) {
throw new UnsupportedOperationException("Method not decompiled: org.webrtc.NetworkMonitorAutoDetect.ConnectivityManagerDelegate.hasInternetCapability(android.net.Network):boolean");
}
public void registerNetworkCallback(ConnectivityManager.NetworkCallback networkCallback) {
NetworkRequest.Builder addCapability;
ConnectivityManager connectivityManager = this.connectivityManager;
addCapability = new NetworkRequest.Builder().addCapability(12);
zzdd$.ExternalSyntheticApiModelOutline4.m(connectivityManager, zzdd$.ExternalSyntheticApiModelOutline3.m(addCapability), networkCallback);
}
public void releaseCallback(ConnectivityManager.NetworkCallback networkCallback) {
if (supportNetworkCallback()) {
Logging.d(NetworkMonitorAutoDetect.TAG, "Unregister network callback");
this.connectivityManager.unregisterNetworkCallback(networkCallback);
}
}
public void requestMobileNetwork(ConnectivityManager.NetworkCallback networkCallback) {
NetworkRequest.Builder addCapability;
NetworkRequest.Builder builder = new NetworkRequest.Builder();
addCapability = builder.addCapability(12);
zzdd$.ExternalSyntheticApiModelOutline2.m(addCapability, 0);
this.connectivityManager.requestNetwork(zzdd$.ExternalSyntheticApiModelOutline3.m(builder), networkCallback);
}
public boolean supportNetworkCallback() {
return Build.VERSION.SDK_INT >= 21 && this.connectivityManager != null;
}
}
static class NetworkState {
private final boolean connected;
private final int subtype;
private final int type;
private final int underlyingNetworkSubtypeForVpn;
private final int underlyingNetworkTypeForVpn;
public NetworkState(boolean z, int i, int i2, int i3, int i4) {
this.connected = z;
this.type = i;
this.subtype = i2;
this.underlyingNetworkTypeForVpn = i3;
this.underlyingNetworkSubtypeForVpn = i4;
}
public int getNetworkSubType() {
return this.subtype;
}
public int getNetworkType() {
return this.type;
}
public int getUnderlyingNetworkSubtypeForVpn() {
return this.underlyingNetworkSubtypeForVpn;
}
public int getUnderlyingNetworkTypeForVpn() {
return this.underlyingNetworkTypeForVpn;
}
public boolean isConnected() {
return this.connected;
}
}
private class SimpleNetworkCallback extends ConnectivityManager.NetworkCallback {
private SimpleNetworkCallback() {
}
private void onNetworkChanged(Network network) {
NetworkChangeDetector.NetworkInformation networkToInfo = NetworkMonitorAutoDetect.this.connectivityManagerDelegate.networkToInfo(network);
if (networkToInfo != null) {
NetworkMonitorAutoDetect.this.observer.onNetworkConnect(networkToInfo);
}
}
@Override
public void onAvailable(Network network) {
String network2;
StringBuilder sb = new StringBuilder();
sb.append("Network becomes available: ");
network2 = network.toString();
sb.append(network2);
Logging.d(NetworkMonitorAutoDetect.TAG, sb.toString());
onNetworkChanged(network);
}
@Override
public void onCapabilitiesChanged(Network network, NetworkCapabilities networkCapabilities) {
String networkCapabilities2;
StringBuilder sb = new StringBuilder();
sb.append("capabilities changed: ");
networkCapabilities2 = networkCapabilities.toString();
sb.append(networkCapabilities2);
Logging.d(NetworkMonitorAutoDetect.TAG, sb.toString());
onNetworkChanged(network);
}
@Override
public void onLinkPropertiesChanged(Network network, LinkProperties linkProperties) {
Logging.d(NetworkMonitorAutoDetect.TAG, "link properties changed");
onNetworkChanged(network);
}
@Override
public void onLosing(Network network, int i) {
String network2;
StringBuilder sb = new StringBuilder();
sb.append("Network ");
network2 = network.toString();
sb.append(network2);
sb.append(" is about to lose in ");
sb.append(i);
sb.append("ms");
Logging.d(NetworkMonitorAutoDetect.TAG, sb.toString());
}
@Override
public void onLost(Network network) {
String network2;
StringBuilder sb = new StringBuilder();
sb.append("Network ");
network2 = network.toString();
sb.append(network2);
sb.append(" is disconnected");
Logging.d(NetworkMonitorAutoDetect.TAG, sb.toString());
NetworkMonitorAutoDetect.this.observer.onNetworkDisconnect(NetworkMonitorAutoDetect.networkToNetId(network));
}
}
static class WifiDirectManagerDelegate extends BroadcastReceiver {
private static final int WIFI_P2P_NETWORK_HANDLE = 0;
private final Context context;
private final NetworkChangeDetector.Observer observer;
private NetworkChangeDetector.NetworkInformation wifiP2pNetworkInfo;
WifiDirectManagerDelegate(NetworkChangeDetector.Observer observer, Context context) {
this.context = context;
this.observer = observer;
IntentFilter intentFilter = new IntentFilter();
intentFilter.addAction("android.net.wifi.p2p.STATE_CHANGED");
intentFilter.addAction("android.net.wifi.p2p.CONNECTION_STATE_CHANGE");
int i = Build.VERSION.SDK_INT;
if (i >= 33) {
zzg$.ExternalSyntheticApiModelOutline0.m(context, this, intentFilter, 4);
} else {
context.registerReceiver(this, intentFilter);
}
if (i > 28) {
WifiP2pManager wifiP2pManager = (WifiP2pManager) context.getSystemService("wifip2p");
wifiP2pManager.requestGroupInfo(wifiP2pManager.initialize(context, context.getMainLooper(), null), new WifiP2pManager.GroupInfoListener() {
@Override
public final void onGroupInfoAvailable(WifiP2pGroup wifiP2pGroup) {
NetworkMonitorAutoDetect.WifiDirectManagerDelegate.this.lambda$new$0(wifiP2pGroup);
}
});
}
}
public void lambda$new$0(WifiP2pGroup wifiP2pGroup) {
if (wifiP2pGroup == null || wifiP2pGroup.getInterface() == null) {
return;
}
try {
ArrayList list = Collections.list(NetworkInterface.getByName(wifiP2pGroup.getInterface()).getInetAddresses());
NetworkChangeDetector.IPAddress[] iPAddressArr = new NetworkChangeDetector.IPAddress[list.size()];
for (int i = 0; i < list.size(); i++) {
iPAddressArr[i] = new NetworkChangeDetector.IPAddress(((InetAddress) list.get(i)).getAddress());
}
NetworkChangeDetector.NetworkInformation networkInformation = new NetworkChangeDetector.NetworkInformation(wifiP2pGroup.getInterface(), NetworkChangeDetector.ConnectionType.CONNECTION_WIFI, NetworkChangeDetector.ConnectionType.CONNECTION_NONE, 0L, iPAddressArr);
this.wifiP2pNetworkInfo = networkInformation;
this.observer.onNetworkConnect(networkInformation);
} catch (SocketException e) {
Logging.e(NetworkMonitorAutoDetect.TAG, "Unable to get WifiP2p network interface", e);
}
}
private void onWifiP2pStateChange(int i) {
if (i == 1) {
this.wifiP2pNetworkInfo = null;
this.observer.onNetworkDisconnect(0L);
}
}
public List<NetworkChangeDetector.NetworkInformation> getActiveNetworkList() {
NetworkChangeDetector.NetworkInformation networkInformation = this.wifiP2pNetworkInfo;
return networkInformation != null ? Collections.singletonList(networkInformation) : Collections.emptyList();
}
@Override
public void onReceive(Context context, Intent intent) {
if ("android.net.wifi.p2p.CONNECTION_STATE_CHANGE".equals(intent.getAction())) {
lambda$new$0((WifiP2pGroup) intent.getParcelableExtra("p2pGroupInfo"));
} else if ("android.net.wifi.p2p.STATE_CHANGED".equals(intent.getAction())) {
onWifiP2pStateChange(intent.getIntExtra("wifi_p2p_state", 0));
}
}
public void release() {
this.context.unregisterReceiver(this);
}
}
static class WifiManagerDelegate {
private final Context context;
WifiManagerDelegate() {
this.context = null;
}
WifiManagerDelegate(Context context) {
this.context = context;
}
String getWifiSSID() {
WifiInfo wifiInfo;
String ssid;
Intent m = Build.VERSION.SDK_INT >= 33 ? zzg$.ExternalSyntheticApiModelOutline0.m(this.context, (BroadcastReceiver) null, new IntentFilter("android.net.wifi.STATE_CHANGE"), 4) : this.context.registerReceiver(null, new IntentFilter("android.net.wifi.STATE_CHANGE"));
return (m == null || (wifiInfo = (WifiInfo) m.getParcelableExtra("wifiInfo")) == null || (ssid = wifiInfo.getSSID()) == null) ? "" : ssid;
}
}
public NetworkMonitorAutoDetect(NetworkChangeDetector.Observer observer, Context context) {
this.observer = observer;
this.context = context;
this.connectivityManagerDelegate = new ConnectivityManagerDelegate(context);
this.wifiManagerDelegate = new WifiManagerDelegate(context);
NetworkState networkState = this.connectivityManagerDelegate.getNetworkState();
this.connectionType = getConnectionType(networkState);
this.wifiSSID = getWifiSSID(networkState);
this.intentFilter = new IntentFilter("android.net.conn.CONNECTIVITY_CHANGE");
if (PeerConnectionFactory.fieldTrialsFindFullName("IncludeWifiDirect").equals(PeerConnectionFactory.TRIAL_ENABLED)) {
this.wifiDirectManagerDelegate = new WifiDirectManagerDelegate(observer, context);
}
registerReceiver();
if (!this.connectivityManagerDelegate.supportNetworkCallback()) {
this.mobileNetworkCallback = null;
this.allNetworkCallback = null;
return;
}
ConnectivityManager.NetworkCallback networkCallback = new ConnectivityManager.NetworkCallback();
try {
this.connectivityManagerDelegate.requestMobileNetwork(networkCallback);
} catch (SecurityException unused) {
Logging.w(TAG, "Unable to obtain permission to request a cellular network.");
networkCallback = null;
}
this.mobileNetworkCallback = networkCallback;
SimpleNetworkCallback simpleNetworkCallback = new SimpleNetworkCallback();
this.allNetworkCallback = simpleNetworkCallback;
this.connectivityManagerDelegate.registerNetworkCallback(simpleNetworkCallback);
}
private void connectionTypeChanged(NetworkState networkState) {
NetworkChangeDetector.ConnectionType connectionType = getConnectionType(networkState);
String wifiSSID = getWifiSSID(networkState);
if (connectionType == this.connectionType && wifiSSID.equals(this.wifiSSID)) {
return;
}
this.connectionType = connectionType;
this.wifiSSID = wifiSSID;
Logging.d(TAG, "Network connectivity changed, type is: " + this.connectionType);
this.observer.onConnectionTypeChanged(connectionType);
}
public static NetworkChangeDetector.ConnectionType getConnectionType(NetworkState networkState) {
return getConnectionType(networkState.isConnected(), networkState.getNetworkType(), networkState.getNetworkSubType());
}
private static NetworkChangeDetector.ConnectionType getConnectionType(boolean z, int i, int i2) {
if (!z) {
return NetworkChangeDetector.ConnectionType.CONNECTION_NONE;
}
if (i != 0) {
return i != 1 ? i != 6 ? i != 7 ? i != 9 ? i != 17 ? NetworkChangeDetector.ConnectionType.CONNECTION_UNKNOWN : NetworkChangeDetector.ConnectionType.CONNECTION_VPN : NetworkChangeDetector.ConnectionType.CONNECTION_ETHERNET : NetworkChangeDetector.ConnectionType.CONNECTION_BLUETOOTH : NetworkChangeDetector.ConnectionType.CONNECTION_4G : NetworkChangeDetector.ConnectionType.CONNECTION_WIFI;
}
switch (i2) {
case PeerConnectionFactory.Options.ADAPTER_TYPE_ETHERNET:
case 2:
case 4:
case WebRtcAudioRecord.DEFAULT_AUDIO_SOURCE:
case 11:
case PeerConnectionFactory.Options.ADAPTER_TYPE_LOOPBACK:
return NetworkChangeDetector.ConnectionType.CONNECTION_2G;
case 3:
case 5:
case 6:
case PeerConnectionFactory.Options.ADAPTER_TYPE_VPN:
case 9:
case 10:
case 12:
case 14:
case 15:
case 17:
return NetworkChangeDetector.ConnectionType.CONNECTION_3G;
case 13:
case 18:
return NetworkChangeDetector.ConnectionType.CONNECTION_4G;
case 19:
default:
return NetworkChangeDetector.ConnectionType.CONNECTION_UNKNOWN_CELLULAR;
case 20:
return NetworkChangeDetector.ConnectionType.CONNECTION_5G;
}
}
public static NetworkChangeDetector.ConnectionType getUnderlyingConnectionTypeForVpn(NetworkState networkState) {
return networkState.getNetworkType() != 17 ? NetworkChangeDetector.ConnectionType.CONNECTION_NONE : getConnectionType(networkState.isConnected(), networkState.getUnderlyingNetworkTypeForVpn(), networkState.getUnderlyingNetworkSubtypeForVpn());
}
private String getWifiSSID(NetworkState networkState) {
return getConnectionType(networkState) != NetworkChangeDetector.ConnectionType.CONNECTION_WIFI ? "" : this.wifiManagerDelegate.getWifiSSID();
}
public static long networkToNetId(Network network) {
String network2;
long networkHandle;
if (Build.VERSION.SDK_INT >= 23) {
networkHandle = network.getNetworkHandle();
return networkHandle;
}
network2 = network.toString();
return Integer.parseInt(network2);
}
private void registerReceiver() {
if (this.isRegistered) {
return;
}
this.isRegistered = true;
if (Build.VERSION.SDK_INT >= 33) {
zzg$.ExternalSyntheticApiModelOutline0.m(this.context, this, this.intentFilter, 4);
} else {
this.context.registerReceiver(this, this.intentFilter);
}
}
private void unregisterReceiver() {
if (this.isRegistered) {
this.isRegistered = false;
this.context.unregisterReceiver(this);
}
}
@Override
public void destroy() {
ConnectivityManager.NetworkCallback networkCallback = this.allNetworkCallback;
if (networkCallback != null) {
this.connectivityManagerDelegate.releaseCallback(networkCallback);
}
ConnectivityManager.NetworkCallback networkCallback2 = this.mobileNetworkCallback;
if (networkCallback2 != null) {
this.connectivityManagerDelegate.releaseCallback(networkCallback2);
}
WifiDirectManagerDelegate wifiDirectManagerDelegate = this.wifiDirectManagerDelegate;
if (wifiDirectManagerDelegate != null) {
wifiDirectManagerDelegate.release();
}
unregisterReceiver();
}
@Override
public List<NetworkChangeDetector.NetworkInformation> getActiveNetworkList() {
List<NetworkChangeDetector.NetworkInformation> activeNetworkList = this.connectivityManagerDelegate.getActiveNetworkList();
if (activeNetworkList == null) {
return null;
}
ArrayList arrayList = new ArrayList(activeNetworkList);
WifiDirectManagerDelegate wifiDirectManagerDelegate = this.wifiDirectManagerDelegate;
if (wifiDirectManagerDelegate != null) {
arrayList.addAll(wifiDirectManagerDelegate.getActiveNetworkList());
}
return arrayList;
}
@Override
public NetworkChangeDetector.ConnectionType getCurrentConnectionType() {
return getConnectionType(getCurrentNetworkState());
}
public NetworkState getCurrentNetworkState() {
return this.connectivityManagerDelegate.getNetworkState();
}
public long getDefaultNetId() {
return this.connectivityManagerDelegate.getDefaultNetId();
}
boolean isReceiverRegisteredForTesting() {
return this.isRegistered;
}
@Override
public void onReceive(Context context, Intent intent) {
NetworkState currentNetworkState = getCurrentNetworkState();
if ("android.net.conn.CONNECTIVITY_CHANGE".equals(intent.getAction())) {
connectionTypeChanged(currentNetworkState);
}
}
void setConnectivityManagerDelegateForTests(ConnectivityManagerDelegate connectivityManagerDelegate) {
this.connectivityManagerDelegate = connectivityManagerDelegate;
}
void setWifiManagerDelegateForTests(WifiManagerDelegate wifiManagerDelegate) {
this.wifiManagerDelegate = wifiManagerDelegate;
}
@Override
public boolean supportNetworkCallback() {
return this.connectivityManagerDelegate.supportNetworkCallback();
}
}