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/*
 *  Licensed to the Apache Software Foundation (ASF) under one or more
 *  contributor license agreements.  See the NOTICE file distributed with
 *  this work for additional information regarding copyright ownership.
 *  The ASF licenses this file to You 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 java.net;

import java.io.IOException;
import java.io.Serializable;
import java.util.Arrays;

/**
 * An Internet Protocol (IP) address. This can be either an IPv4 address or an IPv6 address, and
 * in practice you'll have an instance of either {@code Inet4Address} or {@code Inet6Address} (this
 * class cannot be instantiated directly). Most code does not need to distinguish between the two
 * families, and should use {@code InetAddress}.
 * 

*

An {@code InetAddress} may have a hostname (accessible via {@code getHostName}), but may not, * depending on how the {@code InetAddress} was created. *

*

IPv4 numeric address formats

*

The {@code getAllByName} method accepts IPv4 addresses in the "decimal-dotted-quad" form only: *

    *
  • {@code "1.2.3.4"} - 1.2.3.4 *
*

*

IPv6 numeric address formats

*

The {@code getAllByName} method accepts IPv6 addresses in the following forms (this text * comes from RFC 2373, which you should consult * for full details of IPv6 addressing): *

    *
  • The preferred form is {@code x:x:x:x:x:x:x:x}, where the 'x's are the * hexadecimal values of the eight 16-bit pieces of the address. * Note that it is not necessary to write the leading zeros in an * individual field, but there must be at least one numeral in every * field (except for the case described in the next bullet). * Examples: *

     *     FEDC:BA98:7654:3210:FEDC:BA98:7654:3210
     *     1080:0:0:0:8:800:200C:417A
    *
  • *
  • Due to some methods of allocating certain styles of IPv6 * addresses, it will be common for addresses to contain long strings * of zero bits. In order to make writing addresses containing zero * bits easier a special syntax is available to compress the zeros. * The use of "::" indicates multiple groups of 16-bits of zeros. * The "::" can only appear once in an address. The "::" can also be * used to compress the leading and/or trailing zeros in an address. *

    * For example the following addresses: *

     *     1080:0:0:0:8:800:200C:417A  a unicast address
     *     FF01:0:0:0:0:0:0:101        a multicast address
     *     0:0:0:0:0:0:0:1             the loopback address
     *     0:0:0:0:0:0:0:0             the unspecified addresses
    * may be represented as: *
     *     1080::8:800:200C:417A       a unicast address
     *     FF01::101                   a multicast address
     *     ::1                         the loopback address
     *     ::                          the unspecified addresses
    *
  • *
  • An alternative form that is sometimes more convenient when dealing * with a mixed environment of IPv4 and IPv6 nodes is * {@code x:x:x:x:x:x:d.d.d.d}, where the 'x's are the hexadecimal values of * the six high-order 16-bit pieces of the address, and the 'd's are * the decimal values of the four low-order 8-bit pieces of the * address (standard IPv4 representation). Examples: *

     *     0:0:0:0:0:0:13.1.68.3
     *     0:0:0:0:0:FFFF:129.144.52.38
    * or in compressed form: *
     *     ::13.1.68.3
     *     ::FFFF:129.144.52.38
    *
  • *
*

Scopes are given using a trailing {@code %} followed by the scope id, as in * {@code 1080::8:800:200C:417A%2} or {@code 1080::8:800:200C:417A%en0}. * See RFC 4007 for more on IPv6's scoped * address architecture. *

*

Additionally, for backwards compatibility, IPv6 addresses may be surrounded by square * brackets. *

*

DNS caching

*

In Android 4.0 (Ice Cream Sandwich) and earlier, DNS caching was performed both by * InetAddress and by the C library, which meant that DNS TTLs could not be honored correctly. * In later releases, caching is done solely by the C library and DNS TTLs are honored. * * @see Inet4Address */ //@SuppressWarnings("all") public class InetAddress implements Serializable { public static final int AF_INET = 0; public static final int AF_INET6 = 1; public static final int AF_UNIX = 2; public static final int AF_UNSPEC = 3; /** * Our Java-side DNS cache. */ private int family; byte[] ipaddress; String hostName; /** * Used by the DatagramSocket.disconnect implementation. * * @hide internal use only */ public static final InetAddress UNSPECIFIED = new InetAddress(AF_UNSPEC, null, null); /** * Constructs an {@code InetAddress}. *

* Note: this constructor is for subclasses only. */ InetAddress(int family, byte[] ipaddress, String hostName) { this.family = family; this.ipaddress = ipaddress; this.hostName = hostName; } /** * Compares this {@code InetAddress} instance against the specified address * in {@code obj}. Two addresses are equal if their address byte arrays have * the same length and if the bytes in the arrays are equal. * * @param obj the object to be tested for equality. * @return {@code true} if both objects are equal, {@code false} otherwise. */ @Override public boolean equals(Object obj) { if (!(obj instanceof InetAddress)) { return false; } return Arrays.equals(this.ipaddress, ((InetAddress) obj).ipaddress); } /** * Returns the IP address represented by this {@code InetAddress} instance * as a byte array. The elements are in network order (the highest order * address byte is in the zeroth element). * * @return the address in form of a byte array. */ public byte[] getAddress() { return ipaddress.clone(); } /** * Converts an array of byte arrays representing raw IP addresses of a host * to an array of InetAddress objects. * * @param rawAddresses the raw addresses to convert. * @param hostName the hostname corresponding to the IP address. * @return the corresponding InetAddresses, appropriately sorted. */ //private static InetAddress[] bytesToInetAddresses(byte[][] rawAddresses, String hostName) // throws UnknownHostException { // // Convert the byte arrays to InetAddresses. // InetAddress[] returnedAddresses = new InetAddress[rawAddresses.length]; // for (int i = 0; i < rawAddresses.length; i++) { // returnedAddresses[i] = makeInetAddress(rawAddresses[i], hostName); // } // return returnedAddresses; //} /** * Gets all IP addresses associated with the given {@code host} identified * by name or literal IP address. The IP address is resolved by the * configured name service. If the host name is empty or {@code null} an * {@code UnknownHostException} is thrown. If the host name is a literal IP * address string an array with the corresponding single {@code InetAddress} * is returned. * * @param host the hostname or literal IP string to be resolved. * @return the array of addresses associated with the specified host. * @throws UnknownHostException if the address lookup fails. */ public static InetAddress[] getAllByName(String host) throws UnknownHostException { //return getAllByNameImpl(host).clone(); try { return new InetAddress[]{parseNumericAddress(host)}; } catch (Throwable t) { throw new UnknownHostException(host); } } /** * Returns the InetAddresses for {@code host}. The returned array is shared * and must be cloned before it is returned to application code. */ //private static InetAddress[] getAllByNameImpl(String host) throws UnknownHostException { // if (host == null || host.isEmpty()) { // return loopbackAddresses(); // } // // // Is it a numeric address? // InetAddress result = parseNumericAddressNoThrow(host); // if (result != null) { // result = disallowDeprecatedFormats(host, result); // if (result == null) { // throw new UnknownHostException("Deprecated IPv4 address format: " + host); // } // return new InetAddress[] { result }; // } // // return lookupHostByName(host).clone(); //} //private static InetAddress makeInetAddress(byte[] bytes, String hostName) throws UnknownHostException { // if (bytes.length == 4) { // return new Inet4Address(bytes, hostName); // } else if (bytes.length == 16) { // return new Inet6Address(bytes, hostName, 0); // } else { // throw badAddressLength(bytes); // } //} //private static InetAddress disallowDeprecatedFormats(String address, InetAddress inetAddress) { // // Only IPv4 addresses are problematic. // if (!(inetAddress instanceof Inet4Address) || address.indexOf(':') != -1) { // return inetAddress; // } // // If inet_pton(3) can't parse it, it must have been a deprecated format. // // We need to return inet_pton(3)'s result to ensure that numbers assumed to be octal // // by getaddrinfo(3) are reinterpreted by inet_pton(3) as decimal. // return Libcore.os.inet_pton(AF_INET, address); //} //private static InetAddress parseNumericAddressNoThrow(String address) { // // Accept IPv6 addresses (only) in square brackets for compatibility. // if (address.startsWith("[") && address.endsWith("]") && address.indexOf(':') != -1) { // address = address.substring(1, address.length() - 1); // } // StructAddrinfo hints = new StructAddrinfo(); // hints.ai_flags = AI_NUMERICHOST; // InetAddress[] addresses = null; // try { // addresses = Libcore.os.getaddrinfo(address, hints); // } catch (GaiException ignored) { // } // return (addresses != null) ? addresses[0] : null; //} /** * Returns the address of a host according to the given host string name * {@code host}. The host string may be either a machine name or a dotted * string IP address. If the latter, the {@code hostName} field is * determined upon demand. {@code host} can be {@code null} which means that * an address of the loopback interface is returned. * * @param host the hostName to be resolved to an address or {@code null}. * @return the {@code InetAddress} instance representing the host. * @throws UnknownHostException if the address lookup fails. */ public static InetAddress getByName(String host) throws UnknownHostException { //return getAllByNameImpl(host)[0]; throw new RuntimeException("Not implemented"); } /** * Returns the numeric representation of this IP address (such as "127.0.0.1"). */ public String getHostAddress() { //return Libcore.os.getnameinfo(this, NI_NUMERICHOST); // Can't throw. return String.format("%d.%d.%d.%d", ipaddress[0], ipaddress[1], ipaddress[2], ipaddress[3]); } /** * Returns the host name corresponding to this IP address. This may or may not be a * fully-qualified name. If the IP address could not be resolved, the numeric representation * is returned instead (see {@link #getHostAddress}). */ public String getHostName() { //if (hostName == null) { // try { // hostName = getHostByAddrImpl(this).hostName; // } catch (UnknownHostException ex) { // hostName = getHostAddress(); // } //} //return hostName; return getHostAddress(); } /** * Returns the fully qualified hostname corresponding to this IP address. */ public String getCanonicalHostName() { //try { // return getHostByAddrImpl(this).hostName; //} catch (UnknownHostException ex) { // return getHostAddress(); //} return getHostAddress(); } public static InetAddress getLocalHost() throws UnknownHostException { //String host = Libcore.os.uname().nodename; //return lookupHostByName(host)[0]; return Inet4Address.LOOPBACK; } /** * Gets the hashcode of the represented IP address. * * @return the appropriate hashcode value. */ @Override public int hashCode() { return Arrays.hashCode(ipaddress); } /** * Resolves a hostname to its IP addresses using a cache. * * @param host the hostname to resolve. * @return the IP addresses of the host. */ //private static InetAddress[] lookupHostByName(String host) throws UnknownHostException { // BlockGuard.getThreadPolicy().onNetwork(); // // Do we have a result cached? // Object cachedResult = addressCache.get(host); // if (cachedResult != null) { // if (cachedResult instanceof InetAddress[]) { // // A cached positive result. // return (InetAddress[]) cachedResult; // } else { // // A cached negative result. // throw new UnknownHostException((String) cachedResult); // } // } // try { // StructAddrinfo hints = new StructAddrinfo(); // hints.ai_flags = AI_ADDRCONFIG; // hints.ai_family = AF_UNSPEC; // // If we don't specify a socket type, every address will appear twice, once // // for SOCK_STREAM and one for SOCK_DGRAM. Since we do not return the family // // anyway, just pick one. // hints.ai_socktype = SOCK_STREAM; // InetAddress[] addresses = Libcore.os.getaddrinfo(host, hints); // // TODO: should getaddrinfo set the hostname of the InetAddresses it returns? // for (InetAddress address : addresses) { // address.hostName = host; // } // addressCache.put(host, addresses); // return addresses; // } catch (GaiException gaiException) { // // If the failure appears to have been a lack of INTERNET permission, throw a clear // // SecurityException to aid in debugging this common mistake. // // http://code.google.com/p/android/issues/detail?id=15722 // if (gaiException.getCause() instanceof ErrnoException) { // if (((ErrnoException) gaiException.getCause()).errno == EACCES) { // throw new SecurityException("Permission denied (missing INTERNET permission?)", gaiException); // } // } // // Otherwise, throw an UnknownHostException. // String detailMessage = "Unable to resolve host \"" + host + "\": " + Libcore.os.gai_strerror(gaiException.error); // addressCache.putUnknownHost(host, detailMessage); // throw gaiException.rethrowAsUnknownHostException(detailMessage); // } //} //private static InetAddress getHostByAddrImpl(InetAddress address) throws UnknownHostException { // BlockGuard.getThreadPolicy().onNetwork(); // try { // String hostname = Libcore.os.getnameinfo(address, NI_NAMEREQD); // return makeInetAddress(address.ipaddress.clone(), hostname); // } catch (GaiException gaiException) { // throw gaiException.rethrowAsUnknownHostException(); // } //} /** * Returns a string containing the host name (if available) and host address. * For example: {@code "www.google.com/74.125.224.115"} or {@code "/127.0.0.1"}. *

*

IPv6 addresses may additionally include an interface name or scope id. * For example: {@code "www.google.com/2001:4860:4001:803::1013%eth0"} or * {@code "/2001:4860:4001:803::1013%2"}. */ @Override public String toString() { return (hostName == null ? "" : hostName) + "/" + getHostAddress(); } /** * Returns true if the string is a valid numeric IPv4 or IPv6 address (such as "192.168.0.1"). * This copes with all forms of address that Java supports, detailed in the {@link InetAddress} * class documentation. * * @hide used by frameworks/base to ensure that a getAllByName won't cause a DNS lookup. */ public static boolean isNumeric(String address) { //InetAddress inetAddress = parseNumericAddressNoThrow(address); //return inetAddress != null && disallowDeprecatedFormats(address, inetAddress) != null; try { parseNumericAddress(address); return true; } catch (Throwable t) { return false; } } /** * Returns an InetAddress corresponding to the given numeric address (such * as {@code "192.168.0.1"} or {@code "2001:4860:800d::68"}). * This method will never do a DNS lookup. Non-numeric addresses are errors. * * @throws IllegalArgumentException if {@code numericAddress} is not a numeric address * @hide used by frameworks/base's NetworkUtils.numericToInetAddress */ public static InetAddress parseNumericAddress(String numericAddress) { if (numericAddress == null || numericAddress.isEmpty()) return getLoopbackAddress(); if (numericAddress.contains(".")) { String[] parts = numericAddress.split("."); byte[] bytes = new byte[parts.length]; return new Inet4Address(bytes, numericAddress); } else { throw new RuntimeException("Don't know how to handle address"); } //InetAddress result = parseNumericAddressNoThrow(numericAddress); //result = disallowDeprecatedFormats(numericAddress, result); //if (result == null) { // throw new IllegalArgumentException("Not a numeric address: " + numericAddress); //} //return result; } private static InetAddress[] loopbackAddresses() { //return new InetAddress[] { Inet6Address.LOOPBACK, Inet4Address.LOOPBACK }; return new InetAddress[]{Inet4Address.LOOPBACK}; } public static InetAddress getLoopbackAddress() { //return Inet6Address.LOOPBACK; return Inet4Address.LOOPBACK; } public boolean isAnyLocalAddress() { return false; } public boolean isLinkLocalAddress() { return false; } public boolean isLoopbackAddress() { return false; } public boolean isMCGlobal() { return false; } public boolean isMCLinkLocal() { return false; } public boolean isMCNodeLocal() { return false; } public boolean isMCOrgLocal() { return false; } public boolean isMCSiteLocal() { return false; } public boolean isMulticastAddress() { return false; } public boolean isSiteLocalAddress() { return false; } public boolean isReachable(int timeout) throws IOException { //return isReachable(null, 0, timeout); return true; } //public boolean isReachable(NetworkInterface networkInterface, final int ttl, final int timeout) throws IOException { // if (ttl < 0 || timeout < 0) { // throw new IllegalArgumentException("ttl < 0 || timeout < 0"); // } // // // The simple case. // if (networkInterface == null) { // return isReachable(this, null, timeout); // } // // // Try each NetworkInterface in parallel. // // Use a thread pool Executor? // List sourceAddresses = Collections.list(networkInterface.getInetAddresses()); // if (sourceAddresses.isEmpty()) { // return false; // } // final InetAddress destinationAddress = this; // final CountDownLatch latch = new CountDownLatch(sourceAddresses.size()); // final AtomicBoolean isReachable = new AtomicBoolean(false); // for (final InetAddress sourceAddress : sourceAddresses) { // new Thread() { // @Override public void run() { // try { // if (isReachable(destinationAddress, sourceAddress, timeout)) { // isReachable.set(true); // // Wake the main thread so it can return success without // // waiting for any other threads to time out. // while (latch.getCount() > 0) { // latch.countDown(); // } // } // } catch (IOException ignored) { // } // latch.countDown(); // } // }.start(); // } // try { // latch.await(); // } catch (InterruptedException ignored) { // Thread.currentThread().interrupt(); // Leave the interrupted bit set. // } // return isReachable.get(); //} private boolean isReachable(InetAddress destination, InetAddress source, int timeout) throws IOException { //// TODO: try ICMP first (http://code.google.com/p/android/issues/detail?id=20106) //FileDescriptor fd = IoBridge.socket(true); //boolean reached = false; //try { // if (source != null) { // IoBridge.bind(fd, source, 0); // } // IoBridge.connect(fd, destination, 7, timeout); // reached = true; //} catch (IOException e) { // if (e.getCause() instanceof ErrnoException) { // // "Connection refused" means the IP address was reachable. // reached = (((ErrnoException) e.getCause()).errno == ECONNREFUSED); // } //} // //IoBridge.closeSocket(fd); // //return reached; return true; } /** * Equivalent to {@code getByAddress(null, ipAddress)}. Handy for addresses with * no associated hostname. */ public static InetAddress getByAddress(byte[] ipAddress) throws UnknownHostException { return getByAddress(null, ipAddress, 0); } /** * Returns an {@code InetAddress} corresponding to the given network-order * bytes {@code ipAddress} and {@code scopeId}. *

*

For an IPv4 address, the byte array must be of length 4. * For IPv6, the byte array must be of length 16. Any other length will cause an {@code * UnknownHostException}. *

*

No reverse lookup is performed. The given {@code hostName} (which may be null) is * associated with the new {@code InetAddress} with no validation done. *

*

(Note that numeric addresses such as {@code "127.0.0.1"} are names for the * purposes of this API. Most callers probably want {@link #getAllByName} instead.) * * @throws UnknownHostException if {@code ipAddress} is null or the wrong length. */ public static InetAddress getByAddress(String hostName, byte[] ipAddress) throws UnknownHostException { return getByAddress(hostName, ipAddress, 0); } private static InetAddress getByAddress(String hostName, byte[] ipAddress, int scopeId) throws UnknownHostException { if (ipAddress == null) { throw new UnknownHostException("ipAddress == null"); } if (ipAddress.length == 4) { return new Inet4Address(ipAddress.clone(), hostName); } //else if (ipAddress.length == 16) { // // First check to see if the address is an IPv6-mapped // // IPv4 address. If it is, then we can make it a IPv4 // // address, otherwise, we'll create an IPv6 address. // if (isIPv4MappedAddress(ipAddress)) { // return new Inet4Address(ipv4MappedToIPv4(ipAddress), hostName); // } else { // return new Inet6Address(ipAddress.clone(), hostName, scopeId); // } //} else { throw badAddressLength(ipAddress); } } private static UnknownHostException badAddressLength(byte[] bytes) throws UnknownHostException { throw new UnknownHostException("Address is neither 4 or 16 bytes: " + Arrays.toString(bytes)); } private static boolean isIPv4MappedAddress(byte[] ipAddress) { // Check if the address matches ::FFFF:d.d.d.d // The first 10 bytes are 0. The next to are -1 (FF). // The last 4 bytes are varied. if (ipAddress == null || ipAddress.length != 16) { return false; } for (int i = 0; i < 10; i++) { if (ipAddress[i] != 0) { return false; } } if (ipAddress[10] != -1 || ipAddress[11] != -1) { return false; } return true; } private static byte[] ipv4MappedToIPv4(byte[] mappedAddress) { byte[] ipv4Address = new byte[4]; for (int i = 0; i < 4; i++) { ipv4Address[i] = mappedAddress[12 + i]; } return ipv4Address; } //private static final ObjectStreamField[] serialPersistentFields = { // new ObjectStreamField("address", int.class), // new ObjectStreamField("family", int.class), // new ObjectStreamField("hostName", String.class), //}; //private void writeObject(ObjectOutputStream stream) throws IOException { // ObjectOutputStream.PutField fields = stream.putFields(); // if (ipaddress == null) { // fields.put("address", 0); // } else { // fields.put("address", Memory.peekInt(ipaddress, 0, ByteOrder.BIG_ENDIAN)); // } // fields.put("family", family); // fields.put("hostName", hostName); // // stream.writeFields(); //} //private void readObject(ObjectInputStream stream) throws IOException, ClassNotFoundException { // ObjectInputStream.GetField fields = stream.readFields(); // int addr = fields.get("address", 0); // ipaddress = new byte[4]; // Memory.pokeInt(ipaddress, 0, addr, ByteOrder.BIG_ENDIAN); // hostName = (String) fields.get("hostName", null); // family = fields.get("family", 2); //} // ///* // * The spec requires that if we encounter a generic InetAddress in // * serialized form then we should interpret it as an Inet4Address. // */ //private Object readResolve() throws ObjectStreamException { // return new Inet4Address(ipaddress, hostName); //} }





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