An IP address is either a 32-bit or 128-bit unsigned number * used by IP, a lower-level protocol on which protocols like UDP and * TCP are built. The IP address architecture is defined by RFC 790: * Assigned Numbers, RFC 1918: * Address Allocation for Private Internets, RFC 2365: * Administratively Scoped IP Multicast, and RFC 2373: IP * Version 6 Addressing Architecture. An instance of an * InetAddress consists of an IP address and possibly its * corresponding host name (depending on whether it is constructed * with a host name or whether it has already done reverse host name * resolution). * *
* ** * *
* unicast *An identifier for a single interface. A packet sent to * a unicast address is delivered to the interface identified by * that address. * * The Unspecified Address -- Also called anylocal or wildcard * address. It must never be assigned to any node. It indicates the * absence of an address. One example of its use is as the target of * bind, which allows a server to accept a client connection on any * interface, in case the server host has multiple interfaces. * *
The unspecified address must not be used as * the destination address of an IP packet. * *
The Loopback Addresses -- This is the address * assigned to the loopback interface. Anything sent to this * IP address loops around and becomes IP input on the local * host. This address is often used when testing a * client.
* * multicast *An identifier for a set of interfaces (typically belonging * to different nodes). A packet sent to a multicast address is * delivered to all interfaces identified by that address.
Link-local addresses are designed to be used for addressing * on a single link for purposes such as auto-address configuration, * neighbor discovery, or when no routers are present. * *
Site-local addresses are designed to be used for addressing * inside of a site without the need for a global prefix. * *
Global addresses are unique across the internet. * *
* * For IPv4 address format, please refer to Inet4Address#format; For IPv6 * address format, please refer to Inet6Address#format. * *
There is a couple of * System Properties affecting how IPv4 and IPv6 addresses are used.
* *Reverse name resolution means that for any IP address, * the host associated with the IP address is returned. * *
The InetAddress class provides methods to resolve host names to * their IP addresses and vice versa. * *
By default, when a security manager is installed, in order to * protect against DNS spoofing attacks, * the result of positive host name resolutions are * cached forever. When a security manager is not installed, the default * behavior is to cache entries for a finite (implementation dependent) * period of time. The result of unsuccessful host * name resolution is cached for a very short period of time (10 * seconds) to improve performance. * *
If the default behavior is not desired, then a Java security property * can be set to a different Time-to-live (TTL) value for positive * caching. Likewise, a system admin can configure a different * negative caching TTL value when needed. * *
Two Java security properties control the TTL values used for * positive and negative host name resolution caching: * *
** * @author Chris Warth * @see java.net.InetAddress#getByAddress(byte[]) * @see java.net.InetAddress#getByAddress(java.lang.String, byte[]) * @see java.net.InetAddress#getAllByName(java.lang.String) * @see java.net.InetAddress#getByName(java.lang.String) * @see java.net.InetAddress#getLocalHost() * @since 1.0 */ public class InetAddress implements java.io.Serializable { @Native static final int PREFER_IPV4_VALUE = 0; @Native static final int PREFER_IPV6_VALUE = 1; @Native static final int PREFER_SYSTEM_VALUE = 2; /** * Specify the address family: Internet Protocol, Version 4 * @since 1.4 */ @Native static final int IPv4 = 1; /** * Specify the address family: Internet Protocol, Version 6 * @since 1.4 */ @Native static final int IPv6 = 2; /* Specify address family preference */ static transient final int preferIPv6Address; static class InetAddressHolder { /** * Reserve the original application specified hostname. * * The original hostname is useful for domain-based endpoint * identification (see RFC 2818 and RFC 6125). If an address * was created with a raw IP address, a reverse name lookup * may introduce endpoint identification security issue via * DNS forging. * * Oracle JSSE provider is using this original hostname, via * jdk.internal.misc.JavaNetAccess, for SSL/TLS endpoint identification. * * Note: May define a new public method in the future if necessary. */ String originalHostName; InetAddressHolder() {} InetAddressHolder(String hostName, int address, int family) { this.originalHostName = hostName; this.hostName = hostName; this.address = address; this.family = family; } void init(String hostName, int family) { this.originalHostName = hostName; this.hostName = hostName; if (family != -1) { this.family = family; } } String hostName; String getHostName() { return hostName; } String getOriginalHostName() { return originalHostName; } /** * Holds a 32-bit IPv4 address. */ int address; int getAddress() { return address; } /** * Specifies the address family type, for instance, '1' for IPv4 * addresses, and '2' for IPv6 addresses. */ int family; int getFamily() { return family; } } /* Used to store the serializable fields of InetAddress */ final transient InetAddressHolder holder; InetAddressHolder holder() { return holder; } /* Used to store the name service provider */ private static transient NameService nameService = null; /* Used to store the best available hostname */ private transient String canonicalHostName = null; /** use serialVersionUID from JDK 1.0.2 for interoperability */ private static final long serialVersionUID = 3286316764910316507L; /* * Load net library into runtime, and perform initializations. */ static { String str = java.security.AccessController.doPrivileged( new GetPropertyAction("java.net.preferIPv6Addresses")); if (str == null) { preferIPv6Address = PREFER_IPV4_VALUE; } else if (str.equalsIgnoreCase("true")) { preferIPv6Address = PREFER_IPV6_VALUE; } else if (str.equalsIgnoreCase("false")) { preferIPv6Address = PREFER_IPV4_VALUE; } else if (str.equalsIgnoreCase("system")) { preferIPv6Address = PREFER_SYSTEM_VALUE; } else { preferIPv6Address = PREFER_IPV4_VALUE; } AccessController.doPrivileged( new java.security.PrivilegedAction<>() { public Void run() { System.loadLibrary("net"); return null; } }); SharedSecrets.setJavaNetInetAddressAccess( new JavaNetInetAddressAccess() { public String getOriginalHostName(InetAddress ia) { return ia.holder.getOriginalHostName(); } public InetAddress getByName(String hostName, InetAddress hostAddress) throws UnknownHostException { return InetAddress.getByName(hostName, hostAddress); } } ); init(); } /** * Constructor for the Socket.accept() method. * This creates an empty InetAddress, which is filled in by * the accept() method. This InetAddress, however, is not * put in the address cache, since it is not created by name. */ InetAddress() { holder = new InetAddressHolder(); } /** * Replaces the de-serialized object with an Inet4Address object. * * @return the alternate object to the de-serialized object. * * @throws ObjectStreamException if a new object replacing this * object could not be created */ private Object readResolve() throws ObjectStreamException { // will replace the deserialized 'this' object return new Inet4Address(holder().getHostName(), holder().getAddress()); } /** * Utility routine to check if the InetAddress is an * IP multicast address. * @return a {@code boolean} indicating if the InetAddress is * an IP multicast address * @since 1.1 */ public boolean isMulticastAddress() { return false; } /** * Utility routine to check if the InetAddress is a wildcard address. * @return a {@code boolean} indicating if the Inetaddress is * a wildcard address. * @since 1.4 */ public boolean isAnyLocalAddress() { return false; } /** * Utility routine to check if the InetAddress is a loopback address. * * @return a {@code boolean} indicating if the InetAddress is * a loopback address; or false otherwise. * @since 1.4 */ public boolean isLoopbackAddress() { return false; } /** * Utility routine to check if the InetAddress is an link local address. * * @return a {@code boolean} indicating if the InetAddress is * a link local address; or false if address is not a link local unicast address. * @since 1.4 */ public boolean isLinkLocalAddress() { return false; } /** * Utility routine to check if the InetAddress is a site local address. * * @return a {@code boolean} indicating if the InetAddress is * a site local address; or false if address is not a site local unicast address. * @since 1.4 */ public boolean isSiteLocalAddress() { return false; } /** * Utility routine to check if the multicast address has global scope. * * @return a {@code boolean} indicating if the address has * is a multicast address of global scope, false if it is not * of global scope or it is not a multicast address * @since 1.4 */ public boolean isMCGlobal() { return false; } /** * Utility routine to check if the multicast address has node scope. * * @return a {@code boolean} indicating if the address has * is a multicast address of node-local scope, false if it is not * of node-local scope or it is not a multicast address * @since 1.4 */ public boolean isMCNodeLocal() { return false; } /** * Utility routine to check if the multicast address has link scope. * * @return a {@code boolean} indicating if the address has * is a multicast address of link-local scope, false if it is not * of link-local scope or it is not a multicast address * @since 1.4 */ public boolean isMCLinkLocal() { return false; } /** * Utility routine to check if the multicast address has site scope. * * @return a {@code boolean} indicating if the address has * is a multicast address of site-local scope, false if it is not * of site-local scope or it is not a multicast address * @since 1.4 */ public boolean isMCSiteLocal() { return false; } /** * Utility routine to check if the multicast address has organization scope. * * @return a {@code boolean} indicating if the address has * is a multicast address of organization-local scope, * false if it is not of organization-local scope * or it is not a multicast address * @since 1.4 */ public boolean isMCOrgLocal() { return false; } /** * Test whether that address is reachable. Best effort is made by the * implementation to try to reach the host, but firewalls and server * configuration may block requests resulting in a unreachable status * while some specific ports may be accessible. * A typical implementation will use ICMP ECHO REQUESTs if the * privilege can be obtained, otherwise it will try to establish * a TCP connection on port 7 (Echo) of the destination host. **
*- networkaddress.cache.ttl
*- Indicates the caching policy for successful name lookups from * the name service. The value is specified as an integer to indicate * the number of seconds to cache the successful lookup. The default * setting is to cache for an implementation specific period of time. *
** A value of -1 indicates "cache forever". *
- networkaddress.cache.negative.ttl (default: 10)
*- Indicates the caching policy for un-successful name lookups * from the name service. The value is specified as an integer to * indicate the number of seconds to cache the failure for * un-successful lookups. *
** A value of 0 indicates "never cache". * A value of -1 indicates "cache forever". *
* The timeout value, in milliseconds, indicates the maximum amount of time * the try should take. If the operation times out before getting an * answer, the host is deemed unreachable. A negative value will result * in an IllegalArgumentException being thrown. * * @param timeout the time, in milliseconds, before the call aborts * @return a {@code boolean} indicating if the address is reachable. * @throws IOException if a network error occurs * @throws IllegalArgumentException if {@code timeout} is negative. * @since 1.5 */ public boolean isReachable(int timeout) throws IOException { return isReachable(null, 0 , timeout); } /** * Test whether that address is reachable. Best effort is made by the * implementation to try to reach the host, but firewalls and server * configuration may block requests resulting in a unreachable status * while some specific ports may be accessible. * A typical implementation will use ICMP ECHO REQUESTs if the * privilege can be obtained, otherwise it will try to establish * a TCP connection on port 7 (Echo) of the destination host. *
* The {@code network interface} and {@code ttl} parameters * let the caller specify which network interface the test will go through * and the maximum number of hops the packets should go through. * A negative value for the {@code ttl} will result in an * IllegalArgumentException being thrown. *
* The timeout value, in milliseconds, indicates the maximum amount of time * the try should take. If the operation times out before getting an * answer, the host is deemed unreachable. A negative value will result * in an IllegalArgumentException being thrown. * * @param netif the NetworkInterface through which the * test will be done, or null for any interface * @param ttl the maximum numbers of hops to try or 0 for the * default * @param timeout the time, in milliseconds, before the call aborts * @throws IllegalArgumentException if either {@code timeout} * or {@code ttl} are negative. * @return a {@code boolean}indicating if the address is reachable. * @throws IOException if a network error occurs * @since 1.5 */ public boolean isReachable(NetworkInterface netif, int ttl, int timeout) throws IOException { if (ttl < 0) throw new IllegalArgumentException("ttl can't be negative"); if (timeout < 0) throw new IllegalArgumentException("timeout can't be negative"); return impl.isReachable(this, timeout, netif, ttl); } /** * Gets the host name for this IP address. * *
If this InetAddress was created with a host name, * this host name will be remembered and returned; * otherwise, a reverse name lookup will be performed * and the result will be returned based on the system * configured name lookup service. If a lookup of the name service * is required, call * {@link #getCanonicalHostName() getCanonicalHostName}. * *
If there is a security manager, its * {@code checkConnect} method is first called * with the hostname and {@code -1} * as its arguments to see if the operation is allowed. * If the operation is not allowed, it will return * the textual representation of the IP address. * * @return the host name for this IP address, or if the operation * is not allowed by the security check, the textual * representation of the IP address. * * @see InetAddress#getCanonicalHostName * @see SecurityManager#checkConnect */ public String getHostName() { return getHostName(true); } /** * Returns the hostname for this address. * If the host is equal to null, then this address refers to any * of the local machine's available network addresses. * this is package private so SocketPermission can make calls into * here without a security check. * *
If there is a security manager, this method first * calls its {@code checkConnect} method * with the hostname and {@code -1} * as its arguments to see if the calling code is allowed to know * the hostname for this IP address, i.e., to connect to the host. * If the operation is not allowed, it will return * the textual representation of the IP address. * * @return the host name for this IP address, or if the operation * is not allowed by the security check, the textual * representation of the IP address. * * @param check make security check if true * * @see SecurityManager#checkConnect */ String getHostName(boolean check) { if (holder().getHostName() == null) { holder().hostName = InetAddress.getHostFromNameService(this, check); } return holder().getHostName(); } /** * Gets the fully qualified domain name for this IP address. * Best effort method, meaning we may not be able to return * the FQDN depending on the underlying system configuration. * *
If there is a security manager, this method first * calls its {@code checkConnect} method * with the hostname and {@code -1} * as its arguments to see if the calling code is allowed to know * the hostname for this IP address, i.e., to connect to the host. * If the operation is not allowed, it will return * the textual representation of the IP address. * * @return the fully qualified domain name for this IP address, * or if the operation is not allowed by the security check, * the textual representation of the IP address. * * @see SecurityManager#checkConnect * * @since 1.4 */ public String getCanonicalHostName() { if (canonicalHostName == null) { canonicalHostName = InetAddress.getHostFromNameService(this, true); } return canonicalHostName; } /** * Returns the hostname for this address. * *
If there is a security manager, this method first * calls its {@code checkConnect} method * with the hostname and {@code -1} * as its arguments to see if the calling code is allowed to know * the hostname for this IP address, i.e., to connect to the host. * If the operation is not allowed, it will return * the textual representation of the IP address. * * @return the host name for this IP address, or if the operation * is not allowed by the security check, the textual * representation of the IP address. * * @param check make security check if true * * @see SecurityManager#checkConnect */ private static String getHostFromNameService(InetAddress addr, boolean check) { String host = null; try { // first lookup the hostname host = nameService.getHostByAddr(addr.getAddress()); /* check to see if calling code is allowed to know * the hostname for this IP address, ie, connect to the host */ if (check) { SecurityManager sec = System.getSecurityManager(); if (sec != null) { sec.checkConnect(host, -1); } } /* now get all the IP addresses for this hostname, * and make sure one of them matches the original IP * address. We do this to try and prevent spoofing. */ InetAddress[] arr = InetAddress.getAllByName0(host, check); boolean ok = false; if(arr != null) { for(int i = 0; !ok && i < arr.length; i++) { ok = addr.equals(arr[i]); } } //XXX: if it looks a spoof just return the address? if (!ok) { host = addr.getHostAddress(); return host; } } catch (SecurityException e) { host = addr.getHostAddress(); } catch (UnknownHostException e) { host = addr.getHostAddress(); // let next provider resolve the hostname } return host; } /** * Returns the raw IP address of this {@code InetAddress} * object. The result is in network byte order: the highest order * byte of the address is in {@code getAddress()[0]}. * * @return the raw IP address of this object. */ public byte[] getAddress() { return null; } /** * Returns the IP address string in textual presentation. * * @return the raw IP address in a string format. * @since 1.0.2 */ public String getHostAddress() { return null; } /** * Returns a hashcode for this IP address. * * @return a hash code value for this IP address. */ public int hashCode() { return -1; } /** * Compares this object against the specified object. * The result is {@code true} if and only if the argument is * not {@code null} and it represents the same IP address as * this object. *
* Two instances of {@code InetAddress} represent the same IP
* address if the length of the byte arrays returned by
* {@code getAddress} is the same for both, and each of the
* array components is the same for the byte arrays.
*
* @param obj the object to compare against.
* @return {@code true} if the objects are the same;
* {@code false} otherwise.
* @see java.net.InetAddress#getAddress()
*/
public boolean equals(Object obj) {
return false;
}
/**
* Converts this IP address to a {@code String}. The
* string returned is of the form: hostname / literal IP
* address.
*
* If the host name is unresolved, no reverse name service lookup
* is performed. The hostname part will be represented by an empty string.
*
* @return a string representation of this IP address.
*/
public String toString() {
String hostName = holder().getHostName();
return Objects.toString(hostName, "")
+ "/" + getHostAddress();
}
// mapping from host name to Addresses - either NameServiceAddresses (while
// still being looked-up by NameService(s)) or CachedAddresses when cached
private static final ConcurrentMap The file format is that which corresponds with the /etc/hosts file
* IP Address host alias list.
*
* When the file lookup is enabled it replaces the default NameService
* implementation
*
* @since 9
*/
private static final class HostsFileNameService implements NameService {
private final String hostsFile;
public HostsFileNameService (String hostsFileName) {
this.hostsFile = hostsFileName;
}
private String addrToString(byte addr[]) {
String stringifiedAddress = null;
if (addr.length == Inet4Address.INADDRSZ) {
stringifiedAddress = Inet4Address.numericToTextFormat(addr);
} else { // treat as an IPV6 jobby
byte[] newAddr
= IPAddressUtil.convertFromIPv4MappedAddress(addr);
if (newAddr != null) {
stringifiedAddress = Inet4Address.numericToTextFormat(addr);
} else {
stringifiedAddress = Inet6Address.numericToTextFormat(addr);
}
}
return stringifiedAddress;
}
/**
* Lookup the host name corresponding to the IP address provided.
* Search the configured host file a host name corresponding to
* the specified IP address.
*
* @param addr byte array representing an IP address
* @return {@code String} representing the host name mapping
* @throws UnknownHostException
* if no host found for the specified IP address
*/
@Override
public String getHostByAddr(byte[] addr) throws UnknownHostException {
String hostEntry;
String host = null;
String addrString = addrToString(addr);
try (Scanner hostsFileScanner = new Scanner(new File(hostsFile), "UTF-8")) {
while (hostsFileScanner.hasNextLine()) {
hostEntry = hostsFileScanner.nextLine();
if (!hostEntry.startsWith("#")) {
hostEntry = removeComments(hostEntry);
if (hostEntry.contains(addrString)) {
host = extractHost(hostEntry, addrString);
if (host != null) {
break;
}
}
}
}
} catch (FileNotFoundException e) {
throw new UnknownHostException("Unable to resolve address "
+ addrString + " as hosts file " + hostsFile
+ " not found ");
}
if ((host == null) || (host.equals("")) || (host.equals(" "))) {
throw new UnknownHostException("Requested address "
+ addrString
+ " resolves to an invalid entry in hosts file "
+ hostsFile);
}
return host;
}
/**
* Lookup a host mapping by name. Retrieve the IP addresses
* associated with a host.
*
* Search the configured hosts file for the addresses assocaited with
* with the specified host name.
*
* @param host the specified hostname
* @return array of IP addresses for the requested host
* @throws UnknownHostException
* if no IP address for the {@code host} could be found
*/
public InetAddress[] lookupAllHostAddr(String host)
throws UnknownHostException {
String hostEntry;
String addrStr = null;
InetAddress[] res = null;
byte addr[] = new byte[4];
ArrayList The default NameService is the PlatformNameService, which typically
* delegates name and address resolution calls to the underlying
* OS network libraries.
*
* A HostsFileNameService is created if the {@code jdk.net.hosts.file}
* system property is set. If the specified file doesn't exist, the name or
* address lookup will result in an UnknownHostException. Thus, non existent
* hosts file is handled as if the file is empty.
*
* @return a NameService
*/
private static NameService createNameService() {
String hostsFileName =
GetPropertyAction.privilegedGetProperty("jdk.net.hosts.file");
NameService theNameService;
if (hostsFileName != null) {
theNameService = new HostsFileNameService(hostsFileName);
} else {
theNameService = new PlatformNameService();
}
return theNameService;
}
/**
* Creates an InetAddress based on the provided host name and IP address.
* No name service is checked for the validity of the address.
*
* The host name can either be a machine name, such as
* "{@code java.sun.com}", or a textual representation of its IP
* address.
* No validity checking is done on the host name either.
*
* If addr specifies an IPv4 address an instance of Inet4Address
* will be returned; otherwise, an instance of Inet6Address
* will be returned.
*
* IPv4 address byte array must be 4 bytes long and IPv6 byte array
* must be 16 bytes long
*
* @param host the specified host
* @param addr the raw IP address in network byte order
* @return an InetAddress object created from the raw IP address.
* @exception UnknownHostException if IP address is of illegal length
* @since 1.4
*/
public static InetAddress getByAddress(String host, byte[] addr)
throws UnknownHostException {
if (host != null && host.length() > 0 && host.charAt(0) == '[') {
if (host.charAt(host.length()-1) == ']') {
host = host.substring(1, host.length() -1);
}
}
if (addr != null) {
if (addr.length == Inet4Address.INADDRSZ) {
return new Inet4Address(host, addr);
} else if (addr.length == Inet6Address.INADDRSZ) {
byte[] newAddr
= IPAddressUtil.convertFromIPv4MappedAddress(addr);
if (newAddr != null) {
return new Inet4Address(host, newAddr);
} else {
return new Inet6Address(host, addr);
}
}
}
throw new UnknownHostException("addr is of illegal length");
}
/**
* Determines the IP address of a host, given the host's name.
*
* The host name can either be a machine name, such as
* "{@code java.sun.com}", or a textual representation of its
* IP address. If a literal IP address is supplied, only the
* validity of the address format is checked.
*
* For {@code host} specified in literal IPv6 address,
* either the form defined in RFC 2732 or the literal IPv6 address
* format defined in RFC 2373 is accepted. IPv6 scoped addresses are also
* supported. See here for a description of IPv6
* scoped addresses.
*
* If the host is {@code null} then an {@code InetAddress}
* representing an address of the loopback interface is returned.
* See RFC 3330
* section 2 and RFC 2373
* section 2.5.3. The host name can either be a machine name, such as
* "{@code java.sun.com}", or a textual representation of its IP
* address. If a literal IP address is supplied, only the
* validity of the address format is checked.
*
* For {@code host} specified in literal IPv6 address,
* either the form defined in RFC 2732 or the literal IPv6 address
* format defined in RFC 2373 is accepted. A literal IPv6 address may
* also be qualified by appending a scoped zone identifier or scope_id.
* The syntax and usage of scope_ids is described
* here.
* If the host is {@code null} then an {@code InetAddress}
* representing an address of the loopback interface is returned.
* See RFC 3330
* section 2 and RFC 2373
* section 2.5.3. If there is a security manager and {@code host} is not
* null and {@code host.length() } is not equal to zero, the
* security manager's
* {@code checkConnect} method is called
* with the hostname and {@code -1}
* as its arguments to see if the operation is allowed.
*
* @param host the name of the host, or {@code null}.
* @return an array of all the IP addresses for a given host name.
*
* @exception UnknownHostException if no IP address for the
* {@code host} could be found, or if a scope_id was specified
* for a global IPv6 address.
* @exception SecurityException if a security manager exists and its
* {@code checkConnect} method doesn't allow the operation.
*
* @see SecurityManager#checkConnect
*/
public static InetAddress[] getAllByName(String host)
throws UnknownHostException {
return getAllByName(host, null);
}
private static InetAddress[] getAllByName(String host, InetAddress reqAddr)
throws UnknownHostException {
if (host == null || host.length() == 0) {
InetAddress[] ret = new InetAddress[1];
ret[0] = impl.loopbackAddress();
return ret;
}
boolean ipv6Expected = false;
if (host.charAt(0) == '[') {
// This is supposed to be an IPv6 literal
if (host.length() > 2 && host.charAt(host.length()-1) == ']') {
host = host.substring(1, host.length() -1);
ipv6Expected = true;
} else {
// This was supposed to be a IPv6 address, but it's not!
throw new UnknownHostException(host + ": invalid IPv6 address");
}
}
// if host is an IP address, we won't do further lookup
if (Character.digit(host.charAt(0), 16) != -1
|| (host.charAt(0) == ':')) {
byte[] addr = null;
int numericZone = -1;
String ifname = null;
// see if it is IPv4 address
addr = IPAddressUtil.textToNumericFormatV4(host);
if (addr == null) {
// This is supposed to be an IPv6 literal
// Check if a numeric or string zone id is present
int pos;
if ((pos=host.indexOf ('%')) != -1) {
numericZone = checkNumericZone (host);
if (numericZone == -1) { /* remainder of string must be an ifname */
ifname = host.substring (pos+1);
}
}
if ((addr = IPAddressUtil.textToNumericFormatV6(host)) == null && host.contains(":")) {
throw new UnknownHostException(host + ": invalid IPv6 address");
}
} else if (ipv6Expected) {
// Means an IPv4 litteral between brackets!
throw new UnknownHostException("["+host+"]");
}
InetAddress[] ret = new InetAddress[1];
if(addr != null) {
if (addr.length == Inet4Address.INADDRSZ) {
ret[0] = new Inet4Address(null, addr);
} else {
if (ifname != null) {
ret[0] = new Inet6Address(null, addr, ifname);
} else {
ret[0] = new Inet6Address(null, addr, numericZone);
}
}
return ret;
}
} else if (ipv6Expected) {
// We were expecting an IPv6 Litteral, but got something else
throw new UnknownHostException("["+host+"]");
}
return getAllByName0(host, reqAddr, true, true);
}
/**
* Returns the loopback address.
*
* The InetAddress returned will represent the IPv4
* loopback address, 127.0.0.1, or the IPv6 loopback
* address, ::1. The IPv4 loopback address returned
* is only one of many in the form 127.*.*.*
*
* @return the InetAddress loopback instance.
* @since 1.7
*/
public static InetAddress getLoopbackAddress() {
return impl.loopbackAddress();
}
/**
* check if the literal address string has %nn appended
* returns -1 if not, or the numeric value otherwise.
*
* %nn may also be a string that represents the displayName of
* a currently available NetworkInterface.
*/
private static int checkNumericZone (String s) throws UnknownHostException {
int percent = s.indexOf ('%');
int slen = s.length();
int digit, zone=0;
if (percent == -1) {
return -1;
}
for (int i=percent+1; i This method doesn't block, i.e. no reverse name service lookup
* is performed.
*
* IPv4 address byte array must be 4 bytes long and IPv6 byte array
* must be 16 bytes long
*
* @param addr the raw IP address in network byte order
* @return an InetAddress object created from the raw IP address.
* @exception UnknownHostException if IP address is of illegal length
* @since 1.4
*/
public static InetAddress getByAddress(byte[] addr)
throws UnknownHostException {
return getByAddress(null, addr);
}
private static final class CachedLocalHost {
final String host;
final InetAddress addr;
final long expiryTime = System.nanoTime() + 5000_000_000L; // now + 5s;
CachedLocalHost(String host, InetAddress addr) {
this.host = host;
this.addr = addr;
}
}
private static volatile CachedLocalHost cachedLocalHost;
/**
* Returns the address of the local host. This is achieved by retrieving
* the name of the host from the system, then resolving that name into
* an {@code InetAddress}.
*
* Note: The resolved address may be cached for a short period of time.
* If there is a security manager, its
* {@code checkConnect} method is called
* with the local host name and {@code -1}
* as its arguments to see if the operation is allowed.
* If the operation is not allowed, an InetAddress representing
* the loopback address is returned.
*
* @return the address of the local host.
*
* @exception UnknownHostException if the local host name could not
* be resolved into an address.
*
* @see SecurityManager#checkConnect
* @see java.net.InetAddress#getByName(java.lang.String)
*/
public static InetAddress getLocalHost() throws UnknownHostException {
SecurityManager security = System.getSecurityManager();
try {
// is cached data still valid?
CachedLocalHost clh = cachedLocalHost;
if (clh != null && (clh.expiryTime - System.nanoTime()) >= 0L) {
if (security != null) {
security.checkConnect(clh.host, -1);
}
return clh.addr;
}
String local = impl.getLocalHostName();
if (security != null) {
security.checkConnect(local, -1);
}
InetAddress localAddr;
if (local.equals("localhost")) {
// shortcut for "localhost" host name
localAddr = impl.loopbackAddress();
} else {
// call getAllByName0 without security checks and
// without using cached data
try {
localAddr = getAllByName0(local, null, false, false)[0];
} catch (UnknownHostException uhe) {
// Rethrow with a more informative error message.
UnknownHostException uhe2 =
new UnknownHostException(local + ": " +
uhe.getMessage());
uhe2.initCause(uhe);
throw uhe2;
}
}
cachedLocalHost = new CachedLocalHost(local, localAddr);
return localAddr;
} catch (java.lang.SecurityException e) {
return impl.loopbackAddress();
}
}
/**
* Perform class load-time initializations.
*/
private static native void init();
/*
* Returns the InetAddress representing anyLocalAddress
* (typically 0.0.0.0 or ::0)
*/
static InetAddress anyLocalAddress() {
return impl.anyLocalAddress();
}
/*
* Load and instantiate an underlying impl class
*/
static InetAddressImpl loadImpl(String implName) {
Object impl = null;
/*
* Property "impl.prefix" will be prepended to the classname
* of the implementation object we instantiate, to which we
* delegate the real work (like native methods). This
* property can vary across implementations of the java.
* classes. The default is an empty String "".
*/
String prefix = GetPropertyAction.privilegedGetProperty("impl.prefix", "");
try {
@SuppressWarnings("deprecation")
Object tmp = Class.forName("java.net." + prefix + implName).newInstance();
impl = tmp;
} catch (ClassNotFoundException e) {
System.err.println("Class not found: java.net." + prefix +
implName + ":\ncheck impl.prefix property " +
"in your properties file.");
} catch (InstantiationException e) {
System.err.println("Could not instantiate: java.net." + prefix +
implName + ":\ncheck impl.prefix property " +
"in your properties file.");
} catch (IllegalAccessException e) {
System.err.println("Cannot access class: java.net." + prefix +
implName + ":\ncheck impl.prefix property " +
"in your properties file.");
}
if (impl == null) {
try {
@SuppressWarnings("deprecation")
Object tmp = Class.forName(implName).newInstance();
impl = tmp;
} catch (Exception e) {
throw new Error("System property impl.prefix incorrect");
}
}
return (InetAddressImpl) impl;
}
private void readObjectNoData (ObjectInputStream s) throws
IOException, ClassNotFoundException {
if (getClass().getClassLoader() != null) {
throw new SecurityException ("invalid address type");
}
}
private static final long FIELDS_OFFSET;
private static final jdk.internal.misc.Unsafe UNSAFE;
static {
jdk.internal.misc.Unsafe unsafe = jdk.internal.misc.Unsafe.getUnsafe();
FIELDS_OFFSET = unsafe.objectFieldOffset(InetAddress.class, "holder");
UNSAFE = unsafe;
}
private void readObject (ObjectInputStream s) throws
IOException, ClassNotFoundException {
if (getClass().getClassLoader() != null) {
throw new SecurityException ("invalid address type");
}
GetField gf = s.readFields();
String host = (String)gf.get("hostName", null);
int address= gf.get("address", 0);
int family= gf.get("family", 0);
InetAddressHolder h = new InetAddressHolder(host, address, family);
UNSAFE.putObject(this, FIELDS_OFFSET, h);
}
/* needed because the serializable fields no longer exist */
/**
* @serialField hostName String
* @serialField address int
* @serialField family int
*/
private static final ObjectStreamField[] serialPersistentFields = {
new ObjectStreamField("hostName", String.class),
new ObjectStreamField("address", int.class),
new ObjectStreamField("family", int.class),
};
private void writeObject (ObjectOutputStream s) throws
IOException {
if (getClass().getClassLoader() != null) {
throw new SecurityException ("invalid address type");
}
PutField pf = s.putFields();
pf.put("hostName", holder().getHostName());
pf.put("address", holder().getAddress());
pf.put("family", holder().getFamily());
s.writeFields();
}
}
/*
* Simple factory to create the impl
*/
class InetAddressImplFactory {
static InetAddressImpl create() {
return InetAddress.loadImpl(isIPv6Supported() ?
"Inet6AddressImpl" : "Inet4AddressImpl");
}
static native boolean isIPv6Supported();
}