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

 /*
  * Copyright (C) 2019 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 static android.net.NetworkUtils.getDnsNetwork;
 import static android.net.NetworkUtils.resNetworkCancel;
 import static android.net.NetworkUtils.resNetworkQuery;
 import static android.net.NetworkUtils.resNetworkResult;
 import static android.net.NetworkUtils.resNetworkSend;
 import static android.net.util.DnsUtils.haveIpv4;
 import static android.net.util.DnsUtils.haveIpv6;
 import static android.net.util.DnsUtils.rfc6724Sort;
 import static android.os.MessageQueue.OnFileDescriptorEventListener.EVENT_ERROR;
 import static android.os.MessageQueue.OnFileDescriptorEventListener.EVENT_INPUT;
 import static android.system.OsConstants.ENONET;

 import android.annotation.CallbackExecutor;
 import android.annotation.IntDef;
 import android.annotation.NonNull;
 import android.annotation.Nullable;
 import android.os.CancellationSignal;
 import android.os.Looper;
 import android.os.MessageQueue;
 import android.system.ErrnoException;
 import android.util.Log;

 import java.io.FileDescriptor;
 import java.lang.annotation.Retention;
 import java.lang.annotation.RetentionPolicy;
 import java.net.InetAddress;
 import java.net.UnknownHostException;
 import java.util.ArrayList;
 import java.util.List;
 import java.util.concurrent.Executor;

 /**
  * Dns resolver class for asynchronous dns querying
  *
  * Note that if a client sends a query with more than 1 record in the question section but
  * the remote dns server does not support this, it may not respond at all, leading to a timeout.
  *
  */
 public final class DnsResolver {
     private static final String TAG = "DnsResolver";
     private static final int FD_EVENTS = EVENT_INPUT | EVENT_ERROR;
     private static final int MAXPACKET = 8 * 1024;
     private static final int SLEEP_TIME_MS = 2;

     @IntDef(prefix = { "CLASS_" }, value = {
             CLASS_IN
     })
     @Retention(RetentionPolicy.SOURCE)
     @interface QueryClass {}
     public static final int CLASS_IN = 1;

     @IntDef(prefix = { "TYPE_" },  value = {
             TYPE_A,
             TYPE_AAAA
     })
     @Retention(RetentionPolicy.SOURCE)
     @interface QueryType {}
     public static final int TYPE_A = 1;
     public static final int TYPE_AAAA = 28;

     @IntDef(prefix = { "FLAG_" }, value = {
             FLAG_EMPTY,
             FLAG_NO_RETRY,
             FLAG_NO_CACHE_STORE,
             FLAG_NO_CACHE_LOOKUP
     })
     @Retention(RetentionPolicy.SOURCE)
     @interface QueryFlag {}
     public static final int FLAG_EMPTY = 0;
     public static final int FLAG_NO_RETRY = 1 << 0;
     public static final int FLAG_NO_CACHE_STORE = 1 << 1;
     public static final int FLAG_NO_CACHE_LOOKUP = 1 << 2;

     @IntDef(prefix = { "ERROR_" }, value = {
             ERROR_PARSE,
             ERROR_SYSTEM
     })
     @Retention(RetentionPolicy.SOURCE)
     @interface DnsError {}
     /**
      * Indicates that there was an error parsing the response the query.
      * The cause of this error is available via getCause() and is a ParseException.
      */
     public static final int ERROR_PARSE = 0;
     /**
      * Indicates that there was an error sending the query.
      * The cause of this error is available via getCause() and is an ErrnoException.
      */
     public static final int ERROR_SYSTEM = 1;

     private static final int NETID_UNSET = 0;

     private static final DnsResolver sInstance = new DnsResolver();

     /**
      * Get instance for DnsResolver
      */
     public static @NonNull DnsResolver getInstance() {
         return sInstance;
     }

     private DnsResolver() {}

     /**
      * Base interface for answer callbacks
      *
      * @param <T> The type of the answer
      */
     public interface Callback<T> {
         /**
          * Success response to
          * {@link android.net.DnsResolver#query query()} or
          * {@link android.net.DnsResolver#rawQuery rawQuery()}.
          *
          * Invoked when the answer to a query was successfully parsed.
          *
          * @param answer <T> answer to the query.
          * @param rcode The response code in the DNS response.
          *
          * {@see android.net.DnsResolver#query query()}
          */
         void onAnswer(@NonNull T answer, int rcode);
         /**
          * Error response to
          * {@link android.net.DnsResolver#query query()} or
          * {@link android.net.DnsResolver#rawQuery rawQuery()}.
          *
          * Invoked when there is no valid answer to
          * {@link android.net.DnsResolver#query query()}
          * {@link android.net.DnsResolver#rawQuery rawQuery()}.
          *
          * @param error a {@link DnsException} object with additional
          *    detail regarding the failure
          */
         void onError(@NonNull DnsException error);
     }

     /**
      * Class to represent DNS error
      */
     public static class DnsException extends Exception {
        /**
         * DNS error code as one of the ERROR_* constants
         */
         @DnsError public final int code;

         DnsException(@DnsError int code, @Nullable Throwable cause) {
             super(cause);
             this.code = code;
         }
     }

     /**
      * Send a raw DNS query.
      * The answer will be provided asynchronously through the provided {@link Callback}.
      *
      * @param network {@link Network} specifying which network to query on.
      *         {@code null} for query on default network.
      * @param query blob message to query
      * @param flags flags as a combination of the FLAGS_* constants
      * @param executor The {@link Executor} that the callback should be executed on.
      * @param cancellationSignal used by the caller to signal if the query should be
      *    cancelled. May be {@code null}.
      * @param callback a {@link Callback} which will be called to notify the caller
      *    of the result of dns query.
      */
     public void rawQuery(@Nullable Network network, @NonNull byte[] query, @QueryFlag int flags,
             @NonNull @CallbackExecutor Executor executor,
             @Nullable CancellationSignal cancellationSignal,
             @NonNull Callback<? super byte[]> callback) {
         if (cancellationSignal != null && cancellationSignal.isCanceled()) {
             return;
         }
         final Object lock = new Object();
         final FileDescriptor queryfd;
         try {
             queryfd = resNetworkSend((network != null)
                     ? network.getNetIdForResolv() : NETID_UNSET, query, query.length, flags);
         } catch (ErrnoException e) {
             executor.execute(() -> callback.onError(new DnsException(ERROR_SYSTEM, e)));
             return;
         }

         synchronized (lock)  {
             registerFDListener(executor, queryfd, callback, cancellationSignal, lock);
             if (cancellationSignal == null) return;
             addCancellationSignal(cancellationSignal, queryfd, lock);
         }
     }

     /**
      * Send a DNS query with the specified name, class and query type.
      * The answer will be provided asynchronously through the provided {@link Callback}.
      *
      * @param network {@link Network} specifying which network to query on.
      *         {@code null} for query on default network.
      * @param domain domain name to query
      * @param nsClass dns class as one of the CLASS_* constants
      * @param nsType dns resource record (RR) type as one of the TYPE_* constants
      * @param flags flags as a combination of the FLAGS_* constants
      * @param executor The {@link Executor} that the callback should be executed on.
      * @param cancellationSignal used by the caller to signal if the query should be
      *    cancelled. May be {@code null}.
      * @param callback a {@link Callback} which will be called to notify the caller
      *    of the result of dns query.
      */
     public void rawQuery(@Nullable Network network, @NonNull String domain,
             @QueryClass int nsClass, @QueryType int nsType, @QueryFlag int flags,
             @NonNull @CallbackExecutor Executor executor,
             @Nullable CancellationSignal cancellationSignal,
             @NonNull Callback<? super byte[]> callback) {
         if (cancellationSignal != null && cancellationSignal.isCanceled()) {
             return;
         }
         final Object lock = new Object();
         final FileDescriptor queryfd;
         try {
             queryfd = resNetworkQuery((network != null)
                     ? network.getNetIdForResolv() : NETID_UNSET, domain, nsClass, nsType, flags);
         } catch (ErrnoException e) {
             executor.execute(() -> callback.onError(new DnsException(ERROR_SYSTEM, e)));
             return;
         }
         synchronized (lock)  {
             registerFDListener(executor, queryfd, callback, cancellationSignal, lock);
             if (cancellationSignal == null) return;
             addCancellationSignal(cancellationSignal, queryfd, lock);
         }
     }

     private class InetAddressAnswerAccumulator implements Callback<byte[]> {
         private final List<InetAddress> mAllAnswers;
         private final Network mNetwork;
         private int mRcode;
         private DnsException mDnsException;
         private final Callback<? super List<InetAddress>> mUserCallback;
         private final int mTargetAnswerCount;
         private int mReceivedAnswerCount = 0;

         InetAddressAnswerAccumulator(@NonNull Network network, int size,
                 @NonNull Callback<? super List<InetAddress>> callback) {
             mNetwork = network;
             mTargetAnswerCount = size;
             mAllAnswers = new ArrayList<>();
             mUserCallback = callback;
         }

         private boolean maybeReportError() {
             if (mRcode != 0) {
                 mUserCallback.onAnswer(mAllAnswers, mRcode);
                 return true;
             }
             if (mDnsException != null) {
                 mUserCallback.onError(mDnsException);
                 return true;
             }
             return false;
         }

         private void maybeReportAnswer() {
             if (++mReceivedAnswerCount != mTargetAnswerCount) return;
             if (mAllAnswers.isEmpty() && maybeReportError()) return;
             mUserCallback.onAnswer(rfc6724Sort(mNetwork, mAllAnswers), mRcode);
         }

         @Override
         public void onAnswer(@NonNull byte[] answer, int rcode) {
             // If at least one query succeeded, return an rcode of 0.
             // Otherwise, arbitrarily return the first rcode received.
             if (mReceivedAnswerCount == 0 || rcode == 0) {
                 mRcode = rcode;
             }
             try {
                 mAllAnswers.addAll(new DnsAddressAnswer(answer).getAddresses());
             } catch (ParseException e) {
                 mDnsException = new DnsException(ERROR_PARSE, e);
             }
             maybeReportAnswer();
         }

         @Override
         public void onError(@NonNull DnsException error) {
             mDnsException = error;
             maybeReportAnswer();
         }
     }

     /**
      * Send a DNS query with the specified name on a network with both IPv4 and IPv6,
      * get back a set of InetAddresses with rfc6724 sorting style asynchronously.
      *
      * This method will examine the connection ability on given network, and query IPv4
      * and IPv6 if connection is available.
      *
      * If at least one query succeeded with valid answer, rcode will be 0
      *
      * The answer will be provided asynchronously through the provided {@link Callback}.
      *
      * @param network {@link Network} specifying which network to query on.
      *         {@code null} for query on default network.
      * @param domain domain name to query
      * @param flags flags as a combination of the FLAGS_* constants
      * @param executor The {@link Executor} that the callback should be executed on.
      * @param cancellationSignal used by the caller to signal if the query should be
      *    cancelled. May be {@code null}.
      * @param callback a {@link Callback} which will be called to notify the
      *    caller of the result of dns query.
      */
     public void query(@Nullable Network network, @NonNull String domain, @QueryFlag int flags,
             @NonNull @CallbackExecutor Executor executor,
             @Nullable CancellationSignal cancellationSignal,
             @NonNull Callback<? super List<InetAddress>> callback) {
         if (cancellationSignal != null && cancellationSignal.isCanceled()) {
             return;
         }
         final Object lock = new Object();
         final Network queryNetwork;
         try {
             queryNetwork = (network != null) ? network : getDnsNetwork();
         } catch (ErrnoException e) {
             executor.execute(() -> callback.onError(new DnsException(ERROR_SYSTEM, e)));
             return;
         }
         final boolean queryIpv6 = haveIpv6(queryNetwork);
         final boolean queryIpv4 = haveIpv4(queryNetwork);

         // This can only happen if queryIpv4 and queryIpv6 are both false.
         // This almost certainly means that queryNetwork does not exist or no longer exists.
         if (!queryIpv6 && !queryIpv4) {
             executor.execute(() -> callback.onError(
                     new DnsException(ERROR_SYSTEM, new ErrnoException("resNetworkQuery", ENONET))));
             return;
         }

         final FileDescriptor v4fd;
         final FileDescriptor v6fd;

         int queryCount = 0;

         if (queryIpv6) {
             try {
                 v6fd = resNetworkQuery(queryNetwork.getNetIdForResolv(), domain, CLASS_IN,
                         TYPE_AAAA, flags);
             } catch (ErrnoException e) {
                 executor.execute(() -> callback.onError(new DnsException(ERROR_SYSTEM, e)));
                 return;
             }
             queryCount++;
         } else v6fd = null;

         // Avoiding gateways drop packets if queries are sent too close together
         try {
             Thread.sleep(SLEEP_TIME_MS);
         } catch (InterruptedException ex) {
             Thread.currentThread().interrupt();
         }

         if (queryIpv4) {
             try {
                 v4fd = resNetworkQuery(queryNetwork.getNetIdForResolv(), domain, CLASS_IN, TYPE_A,
                         flags);
             } catch (ErrnoException e) {
                 if (queryIpv6) resNetworkCancel(v6fd);  // Closes fd, marks it invalid.
                 executor.execute(() -> callback.onError(new DnsException(ERROR_SYSTEM, e)));
                 return;
             }
             queryCount++;
         } else v4fd = null;

         final InetAddressAnswerAccumulator accumulator =
                 new InetAddressAnswerAccumulator(queryNetwork, queryCount, callback);

         synchronized (lock)  {
             if (queryIpv6) {
                 registerFDListener(executor, v6fd, accumulator, cancellationSignal, lock);
             }
             if (queryIpv4) {
                 registerFDListener(executor, v4fd, accumulator, cancellationSignal, lock);
             }
             if (cancellationSignal == null) return;
             cancellationSignal.setOnCancelListener(() -> {
                 synchronized (lock)  {
                     if (queryIpv4) cancelQuery(v4fd);
                     if (queryIpv6) cancelQuery(v6fd);
                 }
             });
         }
     }

     /**
      * Send a DNS query with the specified name and query type, get back a set of
      * InetAddresses with rfc6724 sorting style asynchronously.
      *
      * The answer will be provided asynchronously through the provided {@link Callback}.
      *
      * @param network {@link Network} specifying which network to query on.
      *         {@code null} for query on default network.
      * @param domain domain name to query
      * @param nsType dns resource record (RR) type as one of the TYPE_* constants
      * @param flags flags as a combination of the FLAGS_* constants
      * @param executor The {@link Executor} that the callback should be executed on.
      * @param cancellationSignal used by the caller to signal if the query should be
      *    cancelled. May be {@code null}.
      * @param callback a {@link Callback} which will be called to notify the caller
      *    of the result of dns query.
      */
     public void query(@Nullable Network network, @NonNull String domain,
             @QueryType int nsType, @QueryFlag int flags,
             @NonNull @CallbackExecutor Executor executor,
             @Nullable CancellationSignal cancellationSignal,
             @NonNull Callback<? super List<InetAddress>> callback) {
         if (cancellationSignal != null && cancellationSignal.isCanceled()) {
             return;
         }
         final Object lock = new Object();
         final FileDescriptor queryfd;
         final Network queryNetwork;
         try {
             queryNetwork = (network != null) ? network : getDnsNetwork();
             queryfd = resNetworkQuery(queryNetwork.getNetIdForResolv(), domain, CLASS_IN, nsType,
                     flags);
         } catch (ErrnoException e) {
             executor.execute(() -> callback.onError(new DnsException(ERROR_SYSTEM, e)));
             return;
         }
         final InetAddressAnswerAccumulator accumulator =
                 new InetAddressAnswerAccumulator(queryNetwork, 1, callback);
         synchronized (lock)  {
             registerFDListener(executor, queryfd, accumulator, cancellationSignal, lock);
             if (cancellationSignal == null) return;
             addCancellationSignal(cancellationSignal, queryfd, lock);
         }
     }

     /**
      * Class to retrieve DNS response
      *
      * @hide
      */
     public static final class DnsResponse {
         public final @NonNull byte[] answerbuf;
         public final int rcode;
         public DnsResponse(@NonNull byte[] answerbuf, int rcode) {
             this.answerbuf = answerbuf;
             this.rcode = rcode;
         }
     }

     private void registerFDListener(@NonNull Executor executor,
             @NonNull FileDescriptor queryfd, @NonNull Callback<? super byte[]> answerCallback,
             @Nullable CancellationSignal cancellationSignal, @NonNull Object lock) {
         final MessageQueue mainThreadMessageQueue = Looper.getMainLooper().getQueue();
         mainThreadMessageQueue.addOnFileDescriptorEventListener(
                 queryfd,
                 FD_EVENTS,
                 (fd, events) -> {
                     // b/134310704
                     // Unregister fd event listener before resNetworkResult is called to prevent
                     // race condition caused by fd reused.
                     // For example when querying v4 and v6, it's possible that the first query ends
                     // and the fd is closed before the second request starts, which might return
                     // the same fd for the second request. By that time, the looper must have
                     // unregistered the fd, otherwise another event listener can't be registered.
                     mainThreadMessageQueue.removeOnFileDescriptorEventListener(fd);

                     executor.execute(() -> {
                         DnsResponse resp = null;
                         ErrnoException exception = null;
                         synchronized (lock) {
                             if (cancellationSignal != null && cancellationSignal.isCanceled()) {
                                 return;
                             }
                             try {
                                 resp = resNetworkResult(fd);  // Closes fd, marks it invalid.
                             } catch (ErrnoException e) {
                                 Log.e(TAG, "resNetworkResult:" + e.toString());
                                 exception = e;
                             }
                         }
                         if (exception != null) {
                             answerCallback.onError(new DnsException(ERROR_SYSTEM, exception));
                             return;
                         }
                         answerCallback.onAnswer(resp.answerbuf, resp.rcode);
                     });

                     // The file descriptor has already been unregistered, so it does not really
                     // matter what is returned here. In spirit 0 (meaning "unregister this FD")
                     // is still the closest to what the looper needs to do. When returning 0,
                     // Looper knows to ignore the fd if it has already been unregistered.
                     return 0;
                 });
     }

     private void cancelQuery(@NonNull FileDescriptor queryfd) {
         if (!queryfd.valid()) return;
         Looper.getMainLooper().getQueue().removeOnFileDescriptorEventListener(queryfd);
         resNetworkCancel(queryfd);  // Closes fd, marks it invalid.
     }

     private void addCancellationSignal(@NonNull CancellationSignal cancellationSignal,
             @NonNull FileDescriptor queryfd, @NonNull Object lock) {
         cancellationSignal.setOnCancelListener(() -> {
             synchronized (lock)  {
                 cancelQuery(queryfd);
             }
         });
     }

     private static class DnsAddressAnswer extends DnsPacket {
         private static final String TAG = "DnsResolver.DnsAddressAnswer";
         private static final boolean DBG = false;

         private final int mQueryType;

         DnsAddressAnswer(@NonNull byte[] data) throws ParseException {
             super(data);
             if ((mHeader.flags & (1 << 15)) == 0) {
                 throw new ParseException("Not an answer packet");
             }
             if (mHeader.getRecordCount(QDSECTION) == 0) {
                 throw new ParseException("No question found");
             }
             // Expect only one question in question section.
             mQueryType = mRecords[QDSECTION].get(0).nsType;
         }

         public @NonNull List<InetAddress> getAddresses() {
             final List<InetAddress> results = new ArrayList<InetAddress>();
             if (mHeader.getRecordCount(ANSECTION) == 0) return results;

             for (final DnsRecord ansSec : mRecords[ANSECTION]) {
                 // Only support A and AAAA, also ignore answers if query type != answer type.
                 int nsType = ansSec.nsType;
                 if (nsType != mQueryType || (nsType != TYPE_A && nsType != TYPE_AAAA)) {
                     continue;
                 }
                 try {
                     results.add(InetAddress.getByAddress(ansSec.getRR()));
                 } catch (UnknownHostException e) {
                     if (DBG) {
                         Log.w(TAG, "rr to address fail");
                     }
                 }
             }
             return results;
         }
     }

 }
	/*
	* Copyright (C) 2019 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 static android.net.NetworkUtils.getDnsNetwork;
	import static android.net.NetworkUtils.resNetworkCancel;
	import static android.net.NetworkUtils.resNetworkQuery;
	import static android.net.NetworkUtils.resNetworkResult;
	import static android.net.NetworkUtils.resNetworkSend;
	import static android.net.util.DnsUtils.haveIpv4;
	import static android.net.util.DnsUtils.haveIpv6;
	import static android.net.util.DnsUtils.rfc6724Sort;
	import static android.os.MessageQueue.OnFileDescriptorEventListener.EVENT_ERROR;
	import static android.os.MessageQueue.OnFileDescriptorEventListener.EVENT_INPUT;
	import static android.system.OsConstants.ENONET;

	import android.annotation.CallbackExecutor;
	import android.annotation.IntDef;
	import android.annotation.NonNull;
	import android.annotation.Nullable;
	import android.os.CancellationSignal;
	import android.os.Looper;
	import android.os.MessageQueue;
	import android.system.ErrnoException;
	import android.util.Log;

	import java.io.FileDescriptor;
	import java.lang.annotation.Retention;
	import java.lang.annotation.RetentionPolicy;
	import java.net.InetAddress;
	import java.net.UnknownHostException;
	import java.util.ArrayList;
	import java.util.List;
	import java.util.concurrent.Executor;

	/**
	* Dns resolver class for asynchronous dns querying
	*
	* Note that if a client sends a query with more than 1 record in the question section but
	* the remote dns server does not support this, it may not respond at all, leading to a timeout.
	*
	*/
	public final class DnsResolver {
	private static final String TAG = "DnsResolver";
	private static final int FD_EVENTS = EVENT_INPUT \| EVENT_ERROR;
	private static final int MAXPACKET = 8 * 1024;
	private static final int SLEEP_TIME_MS = 2;

	@IntDef(prefix = { "CLASS_" }, value = {
	CLASS_IN
	})
	@Retention(RetentionPolicy.SOURCE)
	@interface QueryClass {}
	public static final int CLASS_IN = 1;

	@IntDef(prefix = { "TYPE_" }, value = {
	TYPE_A,
	TYPE_AAAA
	})
	@Retention(RetentionPolicy.SOURCE)
	@interface QueryType {}
	public static final int TYPE_A = 1;
	public static final int TYPE_AAAA = 28;

	@IntDef(prefix = { "FLAG_" }, value = {
	FLAG_EMPTY,
	FLAG_NO_RETRY,
	FLAG_NO_CACHE_STORE,
	FLAG_NO_CACHE_LOOKUP
	})
	@Retention(RetentionPolicy.SOURCE)
	@interface QueryFlag {}
	public static final int FLAG_EMPTY = 0;
	public static final int FLAG_NO_RETRY = 1 << 0;
	public static final int FLAG_NO_CACHE_STORE = 1 << 1;
	public static final int FLAG_NO_CACHE_LOOKUP = 1 << 2;

	@IntDef(prefix = { "ERROR_" }, value = {
	ERROR_PARSE,
	ERROR_SYSTEM
	})
	@Retention(RetentionPolicy.SOURCE)
	@interface DnsError {}
	/**
	* Indicates that there was an error parsing the response the query.
	* The cause of this error is available via getCause() and is a ParseException.
	*/
	public static final int ERROR_PARSE = 0;
	/**
	* Indicates that there was an error sending the query.
	* The cause of this error is available via getCause() and is an ErrnoException.
	*/
	public static final int ERROR_SYSTEM = 1;

	private static final int NETID_UNSET = 0;

	private static final DnsResolver sInstance = new DnsResolver();

	/**
	* Get instance for DnsResolver
	*/
	public static @NonNull DnsResolver getInstance() {
	return sInstance;
	}

	private DnsResolver() {}

	/**
	* Base interface for answer callbacks
	*
	* @param <T> The type of the answer
	*/
	public interface Callback<T> {
	/**
	* Success response to
	* {@link android.net.DnsResolver#query query()} or
	* {@link android.net.DnsResolver#rawQuery rawQuery()}.
	*
	* Invoked when the answer to a query was successfully parsed.
	*
	* @param answer <T> answer to the query.
	* @param rcode The response code in the DNS response.
	*
	* {@see android.net.DnsResolver#query query()}
	*/
	void onAnswer(@NonNull T answer, int rcode);
	/**
	* Error response to
	* {@link android.net.DnsResolver#query query()} or
	* {@link android.net.DnsResolver#rawQuery rawQuery()}.
	*
	* Invoked when there is no valid answer to
	* {@link android.net.DnsResolver#query query()}
	* {@link android.net.DnsResolver#rawQuery rawQuery()}.
	*
	* @param error a {@link DnsException} object with additional
	* detail regarding the failure
	*/
	void onError(@NonNull DnsException error);
	}

	/**
	* Class to represent DNS error
	*/
	public static class DnsException extends Exception {
	/**
	* DNS error code as one of the ERROR_* constants
	*/
	@DnsError public final int code;

	DnsException(@DnsError int code, @Nullable Throwable cause) {
	super(cause);
	this.code = code;
	}
	}

	/**
	* Send a raw DNS query.
	* The answer will be provided asynchronously through the provided {@link Callback}.
	*
	* @param network {@link Network} specifying which network to query on.
	* {@code null} for query on default network.
	* @param query blob message to query
	* @param flags flags as a combination of the FLAGS_* constants
	* @param executor The {@link Executor} that the callback should be executed on.
	* @param cancellationSignal used by the caller to signal if the query should be
	* cancelled. May be {@code null}.
	* @param callback a {@link Callback} which will be called to notify the caller
	* of the result of dns query.
	*/
	public void rawQuery(@Nullable Network network, @NonNull byte[] query, @QueryFlag int flags,
	@NonNull @CallbackExecutor Executor executor,
	@Nullable CancellationSignal cancellationSignal,
	@NonNull Callback<? super byte[]> callback) {
	if (cancellationSignal != null && cancellationSignal.isCanceled()) {
	return;
	}
	final Object lock = new Object();
	final FileDescriptor queryfd;
	try {
	queryfd = resNetworkSend((network != null)
	? network.getNetIdForResolv() : NETID_UNSET, query, query.length, flags);
	} catch (ErrnoException e) {
	executor.execute(() -> callback.onError(new DnsException(ERROR_SYSTEM, e)));
	return;
	}

	synchronized (lock) {
	registerFDListener(executor, queryfd, callback, cancellationSignal, lock);
	if (cancellationSignal == null) return;
	addCancellationSignal(cancellationSignal, queryfd, lock);
	}
	}

	/**
	* Send a DNS query with the specified name, class and query type.
	* The answer will be provided asynchronously through the provided {@link Callback}.
	*
	* @param network {@link Network} specifying which network to query on.
	* {@code null} for query on default network.
	* @param domain domain name to query
	* @param nsClass dns class as one of the CLASS_* constants
	* @param nsType dns resource record (RR) type as one of the TYPE_* constants
	* @param flags flags as a combination of the FLAGS_* constants
	* @param executor The {@link Executor} that the callback should be executed on.
	* @param cancellationSignal used by the caller to signal if the query should be
	* cancelled. May be {@code null}.
	* @param callback a {@link Callback} which will be called to notify the caller
	* of the result of dns query.
	*/
	public void rawQuery(@Nullable Network network, @NonNull String domain,
	@QueryClass int nsClass, @QueryType int nsType, @QueryFlag int flags,
	@NonNull @CallbackExecutor Executor executor,
	@Nullable CancellationSignal cancellationSignal,
	@NonNull Callback<? super byte[]> callback) {
	if (cancellationSignal != null && cancellationSignal.isCanceled()) {
	return;
	}
	final Object lock = new Object();
	final FileDescriptor queryfd;
	try {
	queryfd = resNetworkQuery((network != null)
	? network.getNetIdForResolv() : NETID_UNSET, domain, nsClass, nsType, flags);
	} catch (ErrnoException e) {
	executor.execute(() -> callback.onError(new DnsException(ERROR_SYSTEM, e)));
	return;
	}
	synchronized (lock) {
	registerFDListener(executor, queryfd, callback, cancellationSignal, lock);
	if (cancellationSignal == null) return;
	addCancellationSignal(cancellationSignal, queryfd, lock);
	}
	}

	private class InetAddressAnswerAccumulator implements Callback<byte[]> {
	private final List<InetAddress> mAllAnswers;
	private final Network mNetwork;
	private int mRcode;
	private DnsException mDnsException;
	private final Callback<? super List<InetAddress>> mUserCallback;
	private final int mTargetAnswerCount;
	private int mReceivedAnswerCount = 0;

	InetAddressAnswerAccumulator(@NonNull Network network, int size,
	@NonNull Callback<? super List<InetAddress>> callback) {
	mNetwork = network;
	mTargetAnswerCount = size;
	mAllAnswers = new ArrayList<>();
	mUserCallback = callback;
	}

	private boolean maybeReportError() {
	if (mRcode != 0) {
	mUserCallback.onAnswer(mAllAnswers, mRcode);
	return true;
	}
	if (mDnsException != null) {
	mUserCallback.onError(mDnsException);
	return true;
	}
	return false;
	}

	private void maybeReportAnswer() {
	if (++mReceivedAnswerCount != mTargetAnswerCount) return;
	if (mAllAnswers.isEmpty() && maybeReportError()) return;
	mUserCallback.onAnswer(rfc6724Sort(mNetwork, mAllAnswers), mRcode);
	}

	@Override
	public void onAnswer(@NonNull byte[] answer, int rcode) {
	// If at least one query succeeded, return an rcode of 0.
	// Otherwise, arbitrarily return the first rcode received.
	if (mReceivedAnswerCount == 0 \|\| rcode == 0) {
	mRcode = rcode;
	}
	try {
	mAllAnswers.addAll(new DnsAddressAnswer(answer).getAddresses());
	} catch (ParseException e) {
	mDnsException = new DnsException(ERROR_PARSE, e);
	}
	maybeReportAnswer();
	}

	@Override
	public void onError(@NonNull DnsException error) {
	mDnsException = error;
	maybeReportAnswer();
	}
	}

	/**
	* Send a DNS query with the specified name on a network with both IPv4 and IPv6,
	* get back a set of InetAddresses with rfc6724 sorting style asynchronously.
	*
	* This method will examine the connection ability on given network, and query IPv4
	* and IPv6 if connection is available.
	*
	* If at least one query succeeded with valid answer, rcode will be 0
	*
	* The answer will be provided asynchronously through the provided {@link Callback}.
	*
	* @param network {@link Network} specifying which network to query on.
	* {@code null} for query on default network.
	* @param domain domain name to query
	* @param flags flags as a combination of the FLAGS_* constants
	* @param executor The {@link Executor} that the callback should be executed on.
	* @param cancellationSignal used by the caller to signal if the query should be
	* cancelled. May be {@code null}.
	* @param callback a {@link Callback} which will be called to notify the
	* caller of the result of dns query.
	*/
	public void query(@Nullable Network network, @NonNull String domain, @QueryFlag int flags,
	@NonNull @CallbackExecutor Executor executor,
	@Nullable CancellationSignal cancellationSignal,
	@NonNull Callback<? super List<InetAddress>> callback) {
	if (cancellationSignal != null && cancellationSignal.isCanceled()) {
	return;
	}
	final Object lock = new Object();
	final Network queryNetwork;
	try {
	queryNetwork = (network != null) ? network : getDnsNetwork();
	} catch (ErrnoException e) {
	executor.execute(() -> callback.onError(new DnsException(ERROR_SYSTEM, e)));
	return;
	}
	final boolean queryIpv6 = haveIpv6(queryNetwork);
	final boolean queryIpv4 = haveIpv4(queryNetwork);

	// This can only happen if queryIpv4 and queryIpv6 are both false.
	// This almost certainly means that queryNetwork does not exist or no longer exists.
	if (!queryIpv6 && !queryIpv4) {
	executor.execute(() -> callback.onError(
	new DnsException(ERROR_SYSTEM, new ErrnoException("resNetworkQuery", ENONET))));
	return;
	}

	final FileDescriptor v4fd;
	final FileDescriptor v6fd;

	int queryCount = 0;

	if (queryIpv6) {
	try {
	v6fd = resNetworkQuery(queryNetwork.getNetIdForResolv(), domain, CLASS_IN,
	TYPE_AAAA, flags);
	} catch (ErrnoException e) {
	executor.execute(() -> callback.onError(new DnsException(ERROR_SYSTEM, e)));
	return;
	}
	queryCount++;
	} else v6fd = null;

	// Avoiding gateways drop packets if queries are sent too close together
	try {
	Thread.sleep(SLEEP_TIME_MS);
	} catch (InterruptedException ex) {
	Thread.currentThread().interrupt();
	}

	if (queryIpv4) {
	try {
	v4fd = resNetworkQuery(queryNetwork.getNetIdForResolv(), domain, CLASS_IN, TYPE_A,
	flags);
	} catch (ErrnoException e) {
	if (queryIpv6) resNetworkCancel(v6fd); // Closes fd, marks it invalid.
	executor.execute(() -> callback.onError(new DnsException(ERROR_SYSTEM, e)));
	return;
	}
	queryCount++;
	} else v4fd = null;

	final InetAddressAnswerAccumulator accumulator =
	new InetAddressAnswerAccumulator(queryNetwork, queryCount, callback);

	synchronized (lock) {
	if (queryIpv6) {
	registerFDListener(executor, v6fd, accumulator, cancellationSignal, lock);
	}
	if (queryIpv4) {
	registerFDListener(executor, v4fd, accumulator, cancellationSignal, lock);
	}
	if (cancellationSignal == null) return;
	cancellationSignal.setOnCancelListener(() -> {
	synchronized (lock) {
	if (queryIpv4) cancelQuery(v4fd);
	if (queryIpv6) cancelQuery(v6fd);
	}
	});
	}
	}

	/**
	* Send a DNS query with the specified name and query type, get back a set of
	* InetAddresses with rfc6724 sorting style asynchronously.
	*
	* The answer will be provided asynchronously through the provided {@link Callback}.
	*
	* @param network {@link Network} specifying which network to query on.
	* {@code null} for query on default network.
	* @param domain domain name to query
	* @param nsType dns resource record (RR) type as one of the TYPE_* constants
	* @param flags flags as a combination of the FLAGS_* constants
	* @param executor The {@link Executor} that the callback should be executed on.
	* @param cancellationSignal used by the caller to signal if the query should be
	* cancelled. May be {@code null}.
	* @param callback a {@link Callback} which will be called to notify the caller
	* of the result of dns query.
	*/
	public void query(@Nullable Network network, @NonNull String domain,
	@QueryType int nsType, @QueryFlag int flags,
	@NonNull @CallbackExecutor Executor executor,
	@Nullable CancellationSignal cancellationSignal,
	@NonNull Callback<? super List<InetAddress>> callback) {
	if (cancellationSignal != null && cancellationSignal.isCanceled()) {
	return;
	}
	final Object lock = new Object();
	final FileDescriptor queryfd;
	final Network queryNetwork;
	try {
	queryNetwork = (network != null) ? network : getDnsNetwork();
	queryfd = resNetworkQuery(queryNetwork.getNetIdForResolv(), domain, CLASS_IN, nsType,
	flags);
	} catch (ErrnoException e) {
	executor.execute(() -> callback.onError(new DnsException(ERROR_SYSTEM, e)));
	return;
	}
	final InetAddressAnswerAccumulator accumulator =
	new InetAddressAnswerAccumulator(queryNetwork, 1, callback);
	synchronized (lock) {
	registerFDListener(executor, queryfd, accumulator, cancellationSignal, lock);
	if (cancellationSignal == null) return;
	addCancellationSignal(cancellationSignal, queryfd, lock);
	}
	}

	/**
	* Class to retrieve DNS response
	*
	* @hide
	*/
	public static final class DnsResponse {
	public final @NonNull byte[] answerbuf;
	public final int rcode;
	public DnsResponse(@NonNull byte[] answerbuf, int rcode) {
	this.answerbuf = answerbuf;
	this.rcode = rcode;
	}
	}

	private void registerFDListener(@NonNull Executor executor,
	@NonNull FileDescriptor queryfd, @NonNull Callback<? super byte[]> answerCallback,
	@Nullable CancellationSignal cancellationSignal, @NonNull Object lock) {
	final MessageQueue mainThreadMessageQueue = Looper.getMainLooper().getQueue();
	mainThreadMessageQueue.addOnFileDescriptorEventListener(
	queryfd,
	FD_EVENTS,
	(fd, events) -> {
	// b/134310704
	// Unregister fd event listener before resNetworkResult is called to prevent
	// race condition caused by fd reused.
	// For example when querying v4 and v6, it's possible that the first query ends
	// and the fd is closed before the second request starts, which might return
	// the same fd for the second request. By that time, the looper must have
	// unregistered the fd, otherwise another event listener can't be registered.
	mainThreadMessageQueue.removeOnFileDescriptorEventListener(fd);

	executor.execute(() -> {
	DnsResponse resp = null;
	ErrnoException exception = null;
	synchronized (lock) {
	if (cancellationSignal != null && cancellationSignal.isCanceled()) {
	return;
	}
	try {
	resp = resNetworkResult(fd); // Closes fd, marks it invalid.
	} catch (ErrnoException e) {
	Log.e(TAG, "resNetworkResult:" + e.toString());
	exception = e;
	}
	}
	if (exception != null) {
	answerCallback.onError(new DnsException(ERROR_SYSTEM, exception));
	return;
	}
	answerCallback.onAnswer(resp.answerbuf, resp.rcode);
	});

	// The file descriptor has already been unregistered, so it does not really
	// matter what is returned here. In spirit 0 (meaning "unregister this FD")
	// is still the closest to what the looper needs to do. When returning 0,
	// Looper knows to ignore the fd if it has already been unregistered.
	return 0;
	});
	}

	private void cancelQuery(@NonNull FileDescriptor queryfd) {
	if (!queryfd.valid()) return;
	Looper.getMainLooper().getQueue().removeOnFileDescriptorEventListener(queryfd);
	resNetworkCancel(queryfd); // Closes fd, marks it invalid.
	}

	private void addCancellationSignal(@NonNull CancellationSignal cancellationSignal,
	@NonNull FileDescriptor queryfd, @NonNull Object lock) {
	cancellationSignal.setOnCancelListener(() -> {
	synchronized (lock) {
	cancelQuery(queryfd);
	}
	});
	}

	private static class DnsAddressAnswer extends DnsPacket {
	private static final String TAG = "DnsResolver.DnsAddressAnswer";
	private static final boolean DBG = false;

	private final int mQueryType;

	DnsAddressAnswer(@NonNull byte[] data) throws ParseException {
	super(data);
	if ((mHeader.flags & (1 << 15)) == 0) {
	throw new ParseException("Not an answer packet");
	}
	if (mHeader.getRecordCount(QDSECTION) == 0) {
	throw new ParseException("No question found");
	}
	// Expect only one question in question section.
	mQueryType = mRecords[QDSECTION].get(0).nsType;
	}

	public @NonNull List<InetAddress> getAddresses() {
	final List<InetAddress> results = new ArrayList<InetAddress>();
	if (mHeader.getRecordCount(ANSECTION) == 0) return results;

	for (final DnsRecord ansSec : mRecords[ANSECTION]) {
	// Only support A and AAAA, also ignore answers if query type != answer type.
	int nsType = ansSec.nsType;
	if (nsType != mQueryType \|\| (nsType != TYPE_A && nsType != TYPE_AAAA)) {
	continue;
	}
	try {
	results.add(InetAddress.getByAddress(ansSec.getRR()));
	} catch (UnknownHostException e) {
	if (DBG) {
	Log.w(TAG, "rr to address fail");
	}
	}
	}
	return results;
	}
	}

	}