android/net/NetworkFactory.java - platform/prebuilts/fullsdk/sources/android-29 - Git at Google

 /*
  * Copyright (C) 2014 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 package android.net;

 import android.annotation.UnsupportedAppUsage;
 import android.content.Context;
 import android.os.Build;
 import android.os.Handler;
 import android.os.Looper;
 import android.os.Message;
 import android.os.Messenger;
 import android.util.Log;
 import android.util.SparseArray;

 import com.android.internal.annotations.VisibleForTesting;
 import com.android.internal.util.AsyncChannel;
 import com.android.internal.util.IndentingPrintWriter;
 import com.android.internal.util.Protocol;

 import java.io.FileDescriptor;
 import java.io.PrintWriter;
 import java.util.ArrayList;
 import java.util.concurrent.atomic.AtomicInteger;

 /**
  * A NetworkFactory is an entity that creates NetworkAgent objects.
  * The bearers register with ConnectivityService using {@link #register} and
  * their factory will start receiving scored NetworkRequests.  NetworkRequests
  * can be filtered 3 ways: by NetworkCapabilities, by score and more complexly by
  * overridden function.  All of these can be dynamic - changing NetworkCapabilities
  * or score forces re-evaluation of all current requests.
  *
  * If any requests pass the filter some overrideable functions will be called.
  * If the bearer only cares about very simple start/stopNetwork callbacks, those
  * functions can be overridden.  If the bearer needs more interaction, it can
  * override addNetworkRequest and removeNetworkRequest which will give it each
  * request that passes their current filters.
  * @hide
  **/
 public class NetworkFactory extends Handler {
     /** @hide */
     public static class SerialNumber {
         // Guard used by no network factory.
         public static final int NONE = -1;
         // A hardcoded serial number for NetworkAgents representing VPNs. These agents are
         // not created by any factory, so they use this constant for clarity instead of NONE.
         public static final int VPN = -2;
         private static final AtomicInteger sNetworkFactorySerialNumber = new AtomicInteger(1);
         /** Returns a unique serial number for a factory. */
         public static final int nextSerialNumber() {
             return sNetworkFactorySerialNumber.getAndIncrement();
         }
     }

     private static final boolean DBG = true;
     private static final boolean VDBG = false;

     private static final int BASE = Protocol.BASE_NETWORK_FACTORY;
     /**
      * Pass a network request to the bearer.  If the bearer believes it can
      * satisfy the request it should connect to the network and create a
      * NetworkAgent.  Once the NetworkAgent is fully functional it will
      * register itself with ConnectivityService using registerNetworkAgent.
      * If the bearer cannot immediately satisfy the request (no network,
      * user disabled the radio, lower-scored network) it should remember
      * any NetworkRequests it may be able to satisfy in the future.  It may
      * disregard any that it will never be able to service, for example
      * those requiring a different bearer.
      * msg.obj = NetworkRequest
      * msg.arg1 = score - the score of the network currently satisfying this
      *            request.  If this bearer knows in advance it cannot
      *            exceed this score it should not try to connect, holding the request
      *            for the future.
      *            Note that subsequent events may give a different (lower
      *            or higher) score for this request, transmitted to each
      *            NetworkFactory through additional CMD_REQUEST_NETWORK msgs
      *            with the same NetworkRequest but an updated score.
      *            Also, network conditions may change for this bearer
      *            allowing for a better score in the future.
      * msg.arg2 = the serial number of the factory currently responsible for the
      *            NetworkAgent handling this request, or SerialNumber.NONE if none.
      */
     public static final int CMD_REQUEST_NETWORK = BASE;

     /**
      * Cancel a network request
      * msg.obj = NetworkRequest
      */
     public static final int CMD_CANCEL_REQUEST = BASE + 1;

     /**
      * Internally used to set our best-guess score.
      * msg.arg1 = new score
      */
     private static final int CMD_SET_SCORE = BASE + 2;

     /**
      * Internally used to set our current filter for coarse bandwidth changes with
      * technology changes.
      * msg.obj = new filter
      */
     private static final int CMD_SET_FILTER = BASE + 3;

     /**
      * Sent by NetworkFactory to ConnectivityService to indicate that a request is
      * unfulfillable.
      * @see #releaseRequestAsUnfulfillableByAnyFactory(NetworkRequest).
      */
     public static final int EVENT_UNFULFILLABLE_REQUEST = BASE + 4;

     private final Context mContext;
     private final ArrayList<Message> mPreConnectedQueue = new ArrayList<Message>();
     private AsyncChannel mAsyncChannel;
     private final String LOG_TAG;

     private final SparseArray<NetworkRequestInfo> mNetworkRequests =
             new SparseArray<NetworkRequestInfo>();

     private int mScore;
     private NetworkCapabilities mCapabilityFilter;

     private int mRefCount = 0;
     private Messenger mMessenger = null;
     private int mSerialNumber;

     @UnsupportedAppUsage
     public NetworkFactory(Looper looper, Context context, String logTag,
             NetworkCapabilities filter) {
         super(looper);
         LOG_TAG = logTag;
         mContext = context;
         mCapabilityFilter = filter;
     }

     public void register() {
         if (DBG) log("Registering NetworkFactory");
         if (mMessenger == null) {
             mMessenger = new Messenger(this);
             mSerialNumber = ConnectivityManager.from(mContext).registerNetworkFactory(mMessenger,
                     LOG_TAG);
         }
     }

     public void unregister() {
         if (DBG) log("Unregistering NetworkFactory");
         if (mMessenger != null) {
             ConnectivityManager.from(mContext).unregisterNetworkFactory(mMessenger);
             mMessenger = null;
         }
     }

     @Override
     public void handleMessage(Message msg) {
         switch (msg.what) {
             case AsyncChannel.CMD_CHANNEL_FULL_CONNECTION: {
                 if (mAsyncChannel != null) {
                     log("Received new connection while already connected!");
                     break;
                 }
                 if (VDBG) log("NetworkFactory fully connected");
                 AsyncChannel ac = new AsyncChannel();
                 ac.connected(null, this, msg.replyTo);
                 ac.replyToMessage(msg, AsyncChannel.CMD_CHANNEL_FULLY_CONNECTED,
                         AsyncChannel.STATUS_SUCCESSFUL);
                 mAsyncChannel = ac;
                 for (Message m : mPreConnectedQueue) {
                     ac.sendMessage(m);
                 }
                 mPreConnectedQueue.clear();
                 break;
             }
             case AsyncChannel.CMD_CHANNEL_DISCONNECT: {
                 if (VDBG) log("CMD_CHANNEL_DISCONNECT");
                 if (mAsyncChannel != null) {
                     mAsyncChannel.disconnect();
                     mAsyncChannel = null;
                 }
                 break;
             }
             case AsyncChannel.CMD_CHANNEL_DISCONNECTED: {
                 if (DBG) log("NetworkFactory channel lost");
                 mAsyncChannel = null;
                 break;
             }
             case CMD_REQUEST_NETWORK: {
                 handleAddRequest((NetworkRequest) msg.obj, msg.arg1, msg.arg2);
                 break;
             }
             case CMD_CANCEL_REQUEST: {
                 handleRemoveRequest((NetworkRequest) msg.obj);
                 break;
             }
             case CMD_SET_SCORE: {
                 handleSetScore(msg.arg1);
                 break;
             }
             case CMD_SET_FILTER: {
                 handleSetFilter((NetworkCapabilities) msg.obj);
                 break;
             }
         }
     }

     private class NetworkRequestInfo {
         public final NetworkRequest request;
         public int score;
         public boolean requested; // do we have a request outstanding, limited by score
         public int factorySerialNumber;

         NetworkRequestInfo(NetworkRequest request, int score, int factorySerialNumber) {
             this.request = request;
             this.score = score;
             this.requested = false;
             this.factorySerialNumber = factorySerialNumber;
         }

         @Override
         public String toString() {
             return "{" + request + ", score=" + score + ", requested=" + requested + "}";
         }
     }

     /**
      * Add a NetworkRequest that the bearer may want to attempt to satisfy.
      * @see #CMD_REQUEST_NETWORK
      *
      * @param request the request to handle.
      * @param score the score of the NetworkAgent currently satisfying this request.
      * @param servingFactorySerialNumber the serial number of the NetworkFactory that
      *         created the NetworkAgent currently satisfying this request.
      */
     // 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.
     @VisibleForTesting
     protected void handleAddRequest(NetworkRequest request, int score) {
         handleAddRequest(request, score, SerialNumber.NONE);
     }

     /**
      * Add a NetworkRequest that the bearer may want to attempt to satisfy.
      * @see #CMD_REQUEST_NETWORK
      *
      * @param request the request to handle.
      * @param score the score of the NetworkAgent currently satisfying this request.
      * @param servingFactorySerialNumber the serial number of the NetworkFactory that
      *         created the NetworkAgent currently satisfying this request.
      */
     @VisibleForTesting
     protected void handleAddRequest(NetworkRequest request, int score,
             int servingFactorySerialNumber) {
         NetworkRequestInfo n = mNetworkRequests.get(request.requestId);
         if (n == null) {
             if (DBG) {
                 log("got request " + request + " with score " + score
                         + " and serial " + servingFactorySerialNumber);
             }
             n = new NetworkRequestInfo(request, score, servingFactorySerialNumber);
             mNetworkRequests.put(n.request.requestId, n);
         } else {
             if (VDBG) {
                 log("new score " + score + " for exisiting request " + request
                         + " with serial " + servingFactorySerialNumber);
             }
             n.score = score;
             n.factorySerialNumber = servingFactorySerialNumber;
         }
         if (VDBG) log("  my score=" + mScore + ", my filter=" + mCapabilityFilter);

         evalRequest(n);
     }

     @VisibleForTesting
     protected void handleRemoveRequest(NetworkRequest request) {
         NetworkRequestInfo n = mNetworkRequests.get(request.requestId);
         if (n != null) {
             mNetworkRequests.remove(request.requestId);
             if (n.requested) releaseNetworkFor(n.request);
         }
     }

     private void handleSetScore(int score) {
         mScore = score;
         evalRequests();
     }

     private void handleSetFilter(NetworkCapabilities netCap) {
         mCapabilityFilter = netCap;
         evalRequests();
     }

     /**
      * Overridable function to provide complex filtering.
      * Called for every request every time a new NetworkRequest is seen
      * and whenever the filterScore or filterNetworkCapabilities change.
      *
      * acceptRequest can be overridden to provide complex filter behavior
      * for the incoming requests
      *
      * For output, this class will call {@link #needNetworkFor} and
      * {@link #releaseNetworkFor} for every request that passes the filters.
      * If you don't need to see every request, you can leave the base
      * implementations of those two functions and instead override
      * {@link #startNetwork} and {@link #stopNetwork}.
      *
      * If you want to see every score fluctuation on every request, set
      * your score filter to a very high number and watch {@link #needNetworkFor}.
      *
      * @return {@code true} to accept the request.
      */
     public boolean acceptRequest(NetworkRequest request, int score) {
         return true;
     }

     private void evalRequest(NetworkRequestInfo n) {
         if (VDBG) {
             log("evalRequest");
             log(" n.requests = " + n.requested);
             log(" n.score = " + n.score);
             log(" mScore = " + mScore);
             log(" n.factorySerialNumber = " + n.factorySerialNumber);
             log(" mSerialNumber = " + mSerialNumber);
         }
         if (shouldNeedNetworkFor(n)) {
             if (VDBG) log("  needNetworkFor");
             needNetworkFor(n.request, n.score);
             n.requested = true;
         } else if (shouldReleaseNetworkFor(n)) {
             if (VDBG) log("  releaseNetworkFor");
             releaseNetworkFor(n.request);
             n.requested = false;
         } else {
             if (VDBG) log("  done");
         }
     }

     private boolean shouldNeedNetworkFor(NetworkRequestInfo n) {
         // If this request is already tracked, it doesn't qualify for need
         return !n.requested
             // If the score of this request is higher or equal to that of this factory and some
             // other factory is responsible for it, then this factory should not track the request
             // because it has no hope of satisfying it.
             && (n.score < mScore || n.factorySerialNumber == mSerialNumber)
             // If this factory can't satisfy the capability needs of this request, then it
             // should not be tracked.
             && n.request.networkCapabilities.satisfiedByNetworkCapabilities(mCapabilityFilter)
             // Finally if the concrete implementation of the factory rejects the request, then
             // don't track it.
             && acceptRequest(n.request, n.score);
     }

     private boolean shouldReleaseNetworkFor(NetworkRequestInfo n) {
         // Don't release a request that's not tracked.
         return n.requested
             // The request should be released if it can't be satisfied by this factory. That
             // means either of the following conditions are met :
             // - Its score is too high to be satisfied by this factory and it's not already
             //   assigned to the factory
             // - This factory can't satisfy the capability needs of the request
             // - The concrete implementation of the factory rejects the request
             && ((n.score > mScore && n.factorySerialNumber != mSerialNumber)
                     || !n.request.networkCapabilities.satisfiedByNetworkCapabilities(
                             mCapabilityFilter)
                     || !acceptRequest(n.request, n.score));
     }

     private void evalRequests() {
         for (int i = 0; i < mNetworkRequests.size(); i++) {
             NetworkRequestInfo n = mNetworkRequests.valueAt(i);
             evalRequest(n);
         }
     }

     /**
      * Post a command, on this NetworkFactory Handler, to re-evaluate all
      * oustanding requests. Can be called from a factory implementation.
      */
     protected void reevaluateAllRequests() {
         post(() -> {
             evalRequests();
         });
     }

     /**
      * Can be called by a factory to release a request as unfulfillable: the request will be
      * removed, and the caller will get a
      * {@link ConnectivityManager.NetworkCallback#onUnavailable()} callback after this function
      * returns.
      *
      * Note: this should only be called by factory which KNOWS that it is the ONLY factory which
      * is able to fulfill this request!
      */
     protected void releaseRequestAsUnfulfillableByAnyFactory(NetworkRequest r) {
         post(() -> {
             if (DBG) log("releaseRequestAsUnfulfillableByAnyFactory: " + r);
             Message msg = obtainMessage(EVENT_UNFULFILLABLE_REQUEST, r);
             if (mAsyncChannel != null) {
                 mAsyncChannel.sendMessage(msg);
             } else {
                 mPreConnectedQueue.add(msg);
             }
         });
     }

     // override to do simple mode (request independent)
     protected void startNetwork() { }
     protected void stopNetwork() { }

     // override to do fancier stuff
     protected void needNetworkFor(NetworkRequest networkRequest, int score) {
         if (++mRefCount == 1) startNetwork();
     }

     protected void releaseNetworkFor(NetworkRequest networkRequest) {
         if (--mRefCount == 0) stopNetwork();
     }

     @UnsupportedAppUsage(maxTargetSdk = Build.VERSION_CODES.P, trackingBug = 115609023)
     public void setScoreFilter(int score) {
         sendMessage(obtainMessage(CMD_SET_SCORE, score, 0));
     }

     public void setCapabilityFilter(NetworkCapabilities netCap) {
         sendMessage(obtainMessage(CMD_SET_FILTER, new NetworkCapabilities(netCap)));
     }

     @VisibleForTesting
     protected int getRequestCount() {
         return mNetworkRequests.size();
     }

     public int getSerialNumber() {
         return mSerialNumber;
     }

     protected void log(String s) {
         Log.d(LOG_TAG, s);
     }

     @UnsupportedAppUsage(maxTargetSdk = Build.VERSION_CODES.P, trackingBug = 115609023)
     public void dump(FileDescriptor fd, PrintWriter writer, String[] args) {
         final IndentingPrintWriter pw = new IndentingPrintWriter(writer, "  ");
         pw.println(toString());
         pw.increaseIndent();
         for (int i = 0; i < mNetworkRequests.size(); i++) {
             pw.println(mNetworkRequests.valueAt(i));
         }
         pw.decreaseIndent();
     }

     @Override
     public String toString() {
         StringBuilder sb = new StringBuilder("{").append(LOG_TAG).append(" - mSerialNumber=")
                 .append(mSerialNumber).append(", ScoreFilter=")
                 .append(mScore).append(", Filter=").append(mCapabilityFilter).append(", requests=")
                 .append(mNetworkRequests.size()).append(", refCount=").append(mRefCount)
                 .append("}");
         return sb.toString();
     }
 }
	/*
	* Copyright (C) 2014 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	package android.net;

	import android.annotation.UnsupportedAppUsage;
	import android.content.Context;
	import android.os.Build;
	import android.os.Handler;
	import android.os.Looper;
	import android.os.Message;
	import android.os.Messenger;
	import android.util.Log;
	import android.util.SparseArray;

	import com.android.internal.annotations.VisibleForTesting;
	import com.android.internal.util.AsyncChannel;
	import com.android.internal.util.IndentingPrintWriter;
	import com.android.internal.util.Protocol;

	import java.io.FileDescriptor;
	import java.io.PrintWriter;
	import java.util.ArrayList;
	import java.util.concurrent.atomic.AtomicInteger;

	/**
	* A NetworkFactory is an entity that creates NetworkAgent objects.
	* The bearers register with ConnectivityService using {@link #register} and
	* their factory will start receiving scored NetworkRequests. NetworkRequests
	* can be filtered 3 ways: by NetworkCapabilities, by score and more complexly by
	* overridden function. All of these can be dynamic - changing NetworkCapabilities
	* or score forces re-evaluation of all current requests.
	*
	* If any requests pass the filter some overrideable functions will be called.
	* If the bearer only cares about very simple start/stopNetwork callbacks, those
	* functions can be overridden. If the bearer needs more interaction, it can
	* override addNetworkRequest and removeNetworkRequest which will give it each
	* request that passes their current filters.
	* @hide
	**/
	public class NetworkFactory extends Handler {
	/** @hide */
	public static class SerialNumber {
	// Guard used by no network factory.
	public static final int NONE = -1;
	// A hardcoded serial number for NetworkAgents representing VPNs. These agents are
	// not created by any factory, so they use this constant for clarity instead of NONE.
	public static final int VPN = -2;
	private static final AtomicInteger sNetworkFactorySerialNumber = new AtomicInteger(1);
	/** Returns a unique serial number for a factory. */
	public static final int nextSerialNumber() {
	return sNetworkFactorySerialNumber.getAndIncrement();
	}
	}

	private static final boolean DBG = true;
	private static final boolean VDBG = false;

	private static final int BASE = Protocol.BASE_NETWORK_FACTORY;
	/**
	* Pass a network request to the bearer. If the bearer believes it can
	* satisfy the request it should connect to the network and create a
	* NetworkAgent. Once the NetworkAgent is fully functional it will
	* register itself with ConnectivityService using registerNetworkAgent.
	* If the bearer cannot immediately satisfy the request (no network,
	* user disabled the radio, lower-scored network) it should remember
	* any NetworkRequests it may be able to satisfy in the future. It may
	* disregard any that it will never be able to service, for example
	* those requiring a different bearer.
	* msg.obj = NetworkRequest
	* msg.arg1 = score - the score of the network currently satisfying this
	* request. If this bearer knows in advance it cannot
	* exceed this score it should not try to connect, holding the request
	* for the future.
	* Note that subsequent events may give a different (lower
	* or higher) score for this request, transmitted to each
	* NetworkFactory through additional CMD_REQUEST_NETWORK msgs
	* with the same NetworkRequest but an updated score.
	* Also, network conditions may change for this bearer
	* allowing for a better score in the future.
	* msg.arg2 = the serial number of the factory currently responsible for the
	* NetworkAgent handling this request, or SerialNumber.NONE if none.
	*/
	public static final int CMD_REQUEST_NETWORK = BASE;

	/**
	* Cancel a network request
	* msg.obj = NetworkRequest
	*/
	public static final int CMD_CANCEL_REQUEST = BASE + 1;

	/**
	* Internally used to set our best-guess score.
	* msg.arg1 = new score
	*/
	private static final int CMD_SET_SCORE = BASE + 2;

	/**
	* Internally used to set our current filter for coarse bandwidth changes with
	* technology changes.
	* msg.obj = new filter
	*/
	private static final int CMD_SET_FILTER = BASE + 3;

	/**
	* Sent by NetworkFactory to ConnectivityService to indicate that a request is
	* unfulfillable.
	* @see #releaseRequestAsUnfulfillableByAnyFactory(NetworkRequest).
	*/
	public static final int EVENT_UNFULFILLABLE_REQUEST = BASE + 4;

	private final Context mContext;
	private final ArrayList<Message> mPreConnectedQueue = new ArrayList<Message>();
	private AsyncChannel mAsyncChannel;
	private final String LOG_TAG;

	private final SparseArray<NetworkRequestInfo> mNetworkRequests =
	new SparseArray<NetworkRequestInfo>();

	private int mScore;
	private NetworkCapabilities mCapabilityFilter;

	private int mRefCount = 0;
	private Messenger mMessenger = null;
	private int mSerialNumber;

	@UnsupportedAppUsage
	public NetworkFactory(Looper looper, Context context, String logTag,
	NetworkCapabilities filter) {
	super(looper);
	LOG_TAG = logTag;
	mContext = context;
	mCapabilityFilter = filter;
	}

	public void register() {
	if (DBG) log("Registering NetworkFactory");
	if (mMessenger == null) {
	mMessenger = new Messenger(this);
	mSerialNumber = ConnectivityManager.from(mContext).registerNetworkFactory(mMessenger,
	LOG_TAG);
	}
	}

	public void unregister() {
	if (DBG) log("Unregistering NetworkFactory");
	if (mMessenger != null) {
	ConnectivityManager.from(mContext).unregisterNetworkFactory(mMessenger);
	mMessenger = null;
	}
	}

	@Override
	public void handleMessage(Message msg) {
	switch (msg.what) {
	case AsyncChannel.CMD_CHANNEL_FULL_CONNECTION: {
	if (mAsyncChannel != null) {
	log("Received new connection while already connected!");
	break;
	}
	if (VDBG) log("NetworkFactory fully connected");
	AsyncChannel ac = new AsyncChannel();
	ac.connected(null, this, msg.replyTo);
	ac.replyToMessage(msg, AsyncChannel.CMD_CHANNEL_FULLY_CONNECTED,
	AsyncChannel.STATUS_SUCCESSFUL);
	mAsyncChannel = ac;
	for (Message m : mPreConnectedQueue) {
	ac.sendMessage(m);
	}
	mPreConnectedQueue.clear();
	break;
	}
	case AsyncChannel.CMD_CHANNEL_DISCONNECT: {
	if (VDBG) log("CMD_CHANNEL_DISCONNECT");
	if (mAsyncChannel != null) {
	mAsyncChannel.disconnect();
	mAsyncChannel = null;
	}
	break;
	}
	case AsyncChannel.CMD_CHANNEL_DISCONNECTED: {
	if (DBG) log("NetworkFactory channel lost");
	mAsyncChannel = null;
	break;
	}
	case CMD_REQUEST_NETWORK: {
	handleAddRequest((NetworkRequest) msg.obj, msg.arg1, msg.arg2);
	break;
	}
	case CMD_CANCEL_REQUEST: {
	handleRemoveRequest((NetworkRequest) msg.obj);
	break;
	}
	case CMD_SET_SCORE: {
	handleSetScore(msg.arg1);
	break;
	}
	case CMD_SET_FILTER: {
	handleSetFilter((NetworkCapabilities) msg.obj);
	break;
	}
	}
	}

	private class NetworkRequestInfo {
	public final NetworkRequest request;
	public int score;
	public boolean requested; // do we have a request outstanding, limited by score
	public int factorySerialNumber;

	NetworkRequestInfo(NetworkRequest request, int score, int factorySerialNumber) {
	this.request = request;
	this.score = score;
	this.requested = false;
	this.factorySerialNumber = factorySerialNumber;
	}

	@Override
	public String toString() {
	return "{" + request + ", score=" + score + ", requested=" + requested + "}";
	}
	}

	/**
	* Add a NetworkRequest that the bearer may want to attempt to satisfy.
	* @see #CMD_REQUEST_NETWORK
	*
	* @param request the request to handle.
	* @param score the score of the NetworkAgent currently satisfying this request.
	* @param servingFactorySerialNumber the serial number of the NetworkFactory that
	* created the NetworkAgent currently satisfying this request.
	*/
	// 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.
	@VisibleForTesting
	protected void handleAddRequest(NetworkRequest request, int score) {
	handleAddRequest(request, score, SerialNumber.NONE);
	}

	/**
	* Add a NetworkRequest that the bearer may want to attempt to satisfy.
	* @see #CMD_REQUEST_NETWORK
	*
	* @param request the request to handle.
	* @param score the score of the NetworkAgent currently satisfying this request.
	* @param servingFactorySerialNumber the serial number of the NetworkFactory that
	* created the NetworkAgent currently satisfying this request.
	*/
	@VisibleForTesting
	protected void handleAddRequest(NetworkRequest request, int score,
	int servingFactorySerialNumber) {
	NetworkRequestInfo n = mNetworkRequests.get(request.requestId);
	if (n == null) {
	if (DBG) {
	log("got request " + request + " with score " + score
	+ " and serial " + servingFactorySerialNumber);
	}
	n = new NetworkRequestInfo(request, score, servingFactorySerialNumber);
	mNetworkRequests.put(n.request.requestId, n);
	} else {
	if (VDBG) {
	log("new score " + score + " for exisiting request " + request
	+ " with serial " + servingFactorySerialNumber);
	}
	n.score = score;
	n.factorySerialNumber = servingFactorySerialNumber;
	}
	if (VDBG) log(" my score=" + mScore + ", my filter=" + mCapabilityFilter);

	evalRequest(n);
	}

	@VisibleForTesting
	protected void handleRemoveRequest(NetworkRequest request) {
	NetworkRequestInfo n = mNetworkRequests.get(request.requestId);
	if (n != null) {
	mNetworkRequests.remove(request.requestId);
	if (n.requested) releaseNetworkFor(n.request);
	}
	}

	private void handleSetScore(int score) {
	mScore = score;
	evalRequests();
	}

	private void handleSetFilter(NetworkCapabilities netCap) {
	mCapabilityFilter = netCap;
	evalRequests();
	}

	/**
	* Overridable function to provide complex filtering.
	* Called for every request every time a new NetworkRequest is seen
	* and whenever the filterScore or filterNetworkCapabilities change.
	*
	* acceptRequest can be overridden to provide complex filter behavior
	* for the incoming requests
	*
	* For output, this class will call {@link #needNetworkFor} and
	* {@link #releaseNetworkFor} for every request that passes the filters.
	* If you don't need to see every request, you can leave the base
	* implementations of those two functions and instead override
	* {@link #startNetwork} and {@link #stopNetwork}.
	*
	* If you want to see every score fluctuation on every request, set
	* your score filter to a very high number and watch {@link #needNetworkFor}.
	*
	* @return {@code true} to accept the request.
	*/
	public boolean acceptRequest(NetworkRequest request, int score) {
	return true;
	}

	private void evalRequest(NetworkRequestInfo n) {
	if (VDBG) {
	log("evalRequest");
	log(" n.requests = " + n.requested);
	log(" n.score = " + n.score);
	log(" mScore = " + mScore);
	log(" n.factorySerialNumber = " + n.factorySerialNumber);
	log(" mSerialNumber = " + mSerialNumber);
	}
	if (shouldNeedNetworkFor(n)) {
	if (VDBG) log(" needNetworkFor");
	needNetworkFor(n.request, n.score);
	n.requested = true;
	} else if (shouldReleaseNetworkFor(n)) {
	if (VDBG) log(" releaseNetworkFor");
	releaseNetworkFor(n.request);
	n.requested = false;
	} else {
	if (VDBG) log(" done");
	}
	}

	private boolean shouldNeedNetworkFor(NetworkRequestInfo n) {
	// If this request is already tracked, it doesn't qualify for need
	return !n.requested
	// If the score of this request is higher or equal to that of this factory and some
	// other factory is responsible for it, then this factory should not track the request
	// because it has no hope of satisfying it.
	&& (n.score < mScore \|\| n.factorySerialNumber == mSerialNumber)
	// If this factory can't satisfy the capability needs of this request, then it
	// should not be tracked.
	&& n.request.networkCapabilities.satisfiedByNetworkCapabilities(mCapabilityFilter)
	// Finally if the concrete implementation of the factory rejects the request, then
	// don't track it.
	&& acceptRequest(n.request, n.score);
	}

	private boolean shouldReleaseNetworkFor(NetworkRequestInfo n) {
	// Don't release a request that's not tracked.
	return n.requested
	// The request should be released if it can't be satisfied by this factory. That
	// means either of the following conditions are met :
	// - Its score is too high to be satisfied by this factory and it's not already
	// assigned to the factory
	// - This factory can't satisfy the capability needs of the request
	// - The concrete implementation of the factory rejects the request
	&& ((n.score > mScore && n.factorySerialNumber != mSerialNumber)
	\|\| !n.request.networkCapabilities.satisfiedByNetworkCapabilities(
	mCapabilityFilter)
	\|\| !acceptRequest(n.request, n.score));
	}

	private void evalRequests() {
	for (int i = 0; i < mNetworkRequests.size(); i++) {
	NetworkRequestInfo n = mNetworkRequests.valueAt(i);
	evalRequest(n);
	}
	}

	/**
	* Post a command, on this NetworkFactory Handler, to re-evaluate all
	* oustanding requests. Can be called from a factory implementation.
	*/
	protected void reevaluateAllRequests() {
	post(() -> {
	evalRequests();
	});
	}

	/**
	* Can be called by a factory to release a request as unfulfillable: the request will be
	* removed, and the caller will get a
	* {@link ConnectivityManager.NetworkCallback#onUnavailable()} callback after this function
	* returns.
	*
	* Note: this should only be called by factory which KNOWS that it is the ONLY factory which
	* is able to fulfill this request!
	*/
	protected void releaseRequestAsUnfulfillableByAnyFactory(NetworkRequest r) {
	post(() -> {
	if (DBG) log("releaseRequestAsUnfulfillableByAnyFactory: " + r);
	Message msg = obtainMessage(EVENT_UNFULFILLABLE_REQUEST, r);
	if (mAsyncChannel != null) {
	mAsyncChannel.sendMessage(msg);
	} else {
	mPreConnectedQueue.add(msg);
	}
	});
	}

	// override to do simple mode (request independent)
	protected void startNetwork() { }
	protected void stopNetwork() { }

	// override to do fancier stuff
	protected void needNetworkFor(NetworkRequest networkRequest, int score) {
	if (++mRefCount == 1) startNetwork();
	}

	protected void releaseNetworkFor(NetworkRequest networkRequest) {
	if (--mRefCount == 0) stopNetwork();
	}

	@UnsupportedAppUsage(maxTargetSdk = Build.VERSION_CODES.P, trackingBug = 115609023)
	public void setScoreFilter(int score) {
	sendMessage(obtainMessage(CMD_SET_SCORE, score, 0));
	}

	public void setCapabilityFilter(NetworkCapabilities netCap) {
	sendMessage(obtainMessage(CMD_SET_FILTER, new NetworkCapabilities(netCap)));
	}

	@VisibleForTesting
	protected int getRequestCount() {
	return mNetworkRequests.size();
	}

	public int getSerialNumber() {
	return mSerialNumber;
	}

	protected void log(String s) {
	Log.d(LOG_TAG, s);
	}

	@UnsupportedAppUsage(maxTargetSdk = Build.VERSION_CODES.P, trackingBug = 115609023)
	public void dump(FileDescriptor fd, PrintWriter writer, String[] args) {
	final IndentingPrintWriter pw = new IndentingPrintWriter(writer, " ");
	pw.println(toString());
	pw.increaseIndent();
	for (int i = 0; i < mNetworkRequests.size(); i++) {
	pw.println(mNetworkRequests.valueAt(i));
	}
	pw.decreaseIndent();
	}

	@Override
	public String toString() {
	StringBuilder sb = new StringBuilder("{").append(LOG_TAG).append(" - mSerialNumber=")
	.append(mSerialNumber).append(", ScoreFilter=")
	.append(mScore).append(", Filter=").append(mCapabilityFilter).append(", requests=")
	.append(mNetworkRequests.size()).append(", refCount=").append(mRefCount)
	.append("}");
	return sb.toString();
	}
	}