1 /* 2 * Copyright (c) 2000, 2018, Oracle and/or its affiliates. All rights reserved. 3 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. 4 * 5 * This code is free software; you can redistribute it and/or modify it 6 * under the terms of the GNU General Public License version 2 only, as 7 * published by the Free Software Foundation. Oracle designates this 8 * particular file as subject to the "Classpath" exception as provided 9 * by Oracle in the LICENSE file that accompanied this code. 10 * 11 * This code is distributed in the hope that it will be useful, but WITHOUT 12 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or 13 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License 14 * version 2 for more details (a copy is included in the LICENSE file that 15 * accompanied this code). 16 * 17 * You should have received a copy of the GNU General Public License version 18 * 2 along with this work; if not, write to the Free Software Foundation, 19 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. 20 * 21 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA 22 * or visit www.oracle.com if you need additional information or have any 23 * questions. 24 */ 25 26 package java.net; 27 28 import java.io.IOException; 29 import java.io.InvalidObjectException; 30 import java.io.ObjectInputStream; 31 import java.io.ObjectOutputStream; 32 import java.io.ObjectStreamField; 33 import java.util.Enumeration; 34 import java.util.Arrays; 35 36 /** 37 * This class represents an Internet Protocol version 6 (IPv6) address. 38 * Defined by <a href="http://www.ietf.org/rfc/rfc2373.txt"> 39 * <i>RFC 2373: IP Version 6 Addressing Architecture</i></a>. 40 * 41 * <h3> <a id="format">Textual representation of IP addresses</a> </h3> 42 * 43 * Textual representation of IPv6 address used as input to methods 44 * takes one of the following forms: 45 * 46 * <ol> 47 * <li><p> <a id="lform">The preferred form</a> is x:x:x:x:x:x:x:x, 48 * where the 'x's are 49 * the hexadecimal values of the eight 16-bit pieces of the 50 * address. This is the full form. For example, 51 * 52 * <blockquote><ul style="list-style-type:none"> 53 * <li>{@code 1080:0:0:0:8:800:200C:417A}</li> 54 * </ul></blockquote> 55 * 56 * <p> Note that it is not necessary to write the leading zeros in 57 * an individual field. However, there must be at least one numeral 58 * in every field, except as described below.</li> 59 * 60 * <li><p> Due to some methods of allocating certain styles of IPv6 61 * addresses, it will be common for addresses to contain long 62 * strings of zero bits. In order to make writing addresses 63 * containing zero bits easier, a special syntax is available to 64 * compress the zeros. The use of "::" indicates multiple groups 65 * of 16-bits of zeros. The "::" can only appear once in an address. 66 * The "::" can also be used to compress the leading and/or trailing 67 * zeros in an address. For example, 68 * 69 * <blockquote><ul style="list-style-type:none"> 70 * <li>{@code 1080::8:800:200C:417A}</li> 71 * </ul></blockquote> 72 * 73 * <li><p> An alternative form that is sometimes more convenient 74 * when dealing with a mixed environment of IPv4 and IPv6 nodes is 75 * x:x:x:x:x:x:d.d.d.d, where the 'x's are the hexadecimal values 76 * of the six high-order 16-bit pieces of the address, and the 'd's 77 * are the decimal values of the four low-order 8-bit pieces of the 78 * standard IPv4 representation address, for example, 79 * 80 * <blockquote><ul style="list-style-type:none"> 81 * <li>{@code ::FFFF:129.144.52.38}</li> 82 * <li>{@code ::129.144.52.38}</li> 83 * </ul></blockquote> 84 * 85 * <p> where "::FFFF:d.d.d.d" and "::d.d.d.d" are, respectively, the 86 * general forms of an IPv4-mapped IPv6 address and an 87 * IPv4-compatible IPv6 address. Note that the IPv4 portion must be 88 * in the "d.d.d.d" form. The following forms are invalid: 89 * 90 * <blockquote><ul style="list-style-type:none"> 91 * <li>{@code ::FFFF:d.d.d}</li> 92 * <li>{@code ::FFFF:d.d}</li> 93 * <li>{@code ::d.d.d}</li> 94 * <li>{@code ::d.d}</li> 95 * </ul></blockquote> 96 * 97 * <p> The following form: 98 * 99 * <blockquote><ul style="list-style-type:none"> 100 * <li>{@code ::FFFF:d}</li> 101 * </ul></blockquote> 102 * 103 * <p> is valid, however it is an unconventional representation of 104 * the IPv4-compatible IPv6 address, 105 * 106 * <blockquote><ul style="list-style-type:none"> 107 * <li>{@code ::255.255.0.d}</li> 108 * </ul></blockquote> 109 * 110 * <p> while "::d" corresponds to the general IPv6 address 111 * "0:0:0:0:0:0:0:d".</li> 112 * </ol> 113 * 114 * <p> For methods that return a textual representation as output 115 * value, the full form is used. Inet6Address will return the full 116 * form because it is unambiguous when used in combination with other 117 * textual data. 118 * 119 * <h4> Special IPv6 address </h4> 120 * 121 * <blockquote> 122 * <table class="borderless"> 123 * <caption style="display:none">Description of IPv4-mapped address</caption> 124 * <tr><th style="vertical-align:top; padding-right:2px"><i>IPv4-mapped address</i></th> 125 * <td>Of the form ::ffff:w.x.y.z, this IPv6 address is used to 126 * represent an IPv4 address. It allows the native program to 127 * use the same address data structure and also the same 128 * socket when communicating with both IPv4 and IPv6 nodes. 129 * 130 * <p>In InetAddress and Inet6Address, it is used for internal 131 * representation; it has no functional role. Java will never 132 * return an IPv4-mapped address. These classes can take an 133 * IPv4-mapped address as input, both in byte array and text 134 * representation. However, it will be converted into an IPv4 135 * address.</td></tr> 136 * </table></blockquote> 137 * 138 * <h4><a id="scoped">Textual representation of IPv6 scoped addresses</a></h4> 139 * 140 * <p> The textual representation of IPv6 addresses as described above can be 141 * extended to specify IPv6 scoped addresses. This extension to the basic 142 * addressing architecture is described in [draft-ietf-ipngwg-scoping-arch-04.txt]. 143 * 144 * <p> Because link-local and site-local addresses are non-global, it is possible 145 * that different hosts may have the same destination address and may be 146 * reachable through different interfaces on the same originating system. In 147 * this case, the originating system is said to be connected to multiple zones 148 * of the same scope. In order to disambiguate which is the intended destination 149 * zone, it is possible to append a zone identifier (or <i>scope_id</i>) to an 150 * IPv6 address. 151 * 152 * <p> The general format for specifying the <i>scope_id</i> is the following: 153 * 154 * <blockquote><i>IPv6-address</i>%<i>scope_id</i></blockquote> 155 * <p> The IPv6-address is a literal IPv6 address as described above. 156 * The <i>scope_id</i> refers to an interface on the local system, and it can be 157 * specified in two ways. 158 * <ol><li><i>As a numeric identifier.</i> This must be a positive integer 159 * that identifies the particular interface and scope as understood by the 160 * system. Usually, the numeric values can be determined through administration 161 * tools on the system. Each interface may have multiple values, one for each 162 * scope. If the scope is unspecified, then the default value used is zero.</li> 163 * <li><i>As a string.</i> This must be the exact string that is returned by 164 * {@link java.net.NetworkInterface#getName()} for the particular interface in 165 * question. When an Inet6Address is created in this way, the numeric scope-id 166 * is determined at the time the object is created by querying the relevant 167 * NetworkInterface.</li></ol> 168 * 169 * <p> Note also, that the numeric <i>scope_id</i> can be retrieved from 170 * Inet6Address instances returned from the NetworkInterface class. This can be 171 * used to find out the current scope ids configured on the system. 172 * @since 1.4 173 */ 174 175 public final 176 class Inet6Address extends InetAddress { 177 static final int INADDRSZ = 16; 178 179 /* 180 * cached scope_id - for link-local address use only. 181 */ 182 private transient int cached_scope_id; // 0 183 184 private class Inet6AddressHolder { 185 186 private Inet6AddressHolder() { 187 ipaddress = new byte[INADDRSZ]; 188 } 189 190 private Inet6AddressHolder( 191 byte[] ipaddress, int scope_id, boolean scope_id_set, 192 NetworkInterface ifname, boolean scope_ifname_set) 193 { 194 this.ipaddress = ipaddress; 195 this.scope_id = scope_id; 196 this.scope_id_set = scope_id_set; 197 this.scope_ifname_set = scope_ifname_set; 198 this.scope_ifname = ifname; 199 } 200 201 /** 202 * Holds a 128-bit (16 bytes) IPv6 address. 203 */ 204 byte[] ipaddress; 205 206 /** 207 * scope_id. The scope specified when the object is created. If the object 208 * is created with an interface name, then the scope_id is not determined 209 * until the time it is needed. 210 */ 211 int scope_id; // 0 212 213 /** 214 * This will be set to true when the scope_id field contains a valid 215 * integer scope_id. 216 */ 217 boolean scope_id_set; // false 218 219 /** 220 * scoped interface. scope_id is derived from this as the scope_id of the first 221 * address whose scope is the same as this address for the named interface. 222 */ 223 NetworkInterface scope_ifname; // null 224 225 /** 226 * set if the object is constructed with a scoped 227 * interface instead of a numeric scope id. 228 */ 229 boolean scope_ifname_set; // false; 230 231 void setAddr(byte addr[]) { 232 if (addr.length == INADDRSZ) { // normal IPv6 address 233 System.arraycopy(addr, 0, ipaddress, 0, INADDRSZ); 234 } 235 } 236 237 void init(byte addr[], int scope_id) { 238 setAddr(addr); 239 240 if (scope_id >= 0) { 241 this.scope_id = scope_id; 242 this.scope_id_set = true; 243 } 244 } 245 246 void init(byte addr[], NetworkInterface nif) 247 throws UnknownHostException 248 { 249 setAddr(addr); 250 251 if (nif != null) { 252 this.scope_id = deriveNumericScope(ipaddress, nif); 253 this.scope_id_set = true; 254 this.scope_ifname = nif; 255 this.scope_ifname_set = true; 256 } 257 } 258 259 String getHostAddress() { 260 String s = numericToTextFormat(ipaddress); 261 if (scope_ifname != null) { /* must check this first */ 262 s = s + "%" + scope_ifname.getName(); 263 } else if (scope_id_set) { 264 s = s + "%" + scope_id; 265 } 266 return s; 267 } 268 269 public boolean equals(Object o) { 270 if (! (o instanceof Inet6AddressHolder)) { 271 return false; 272 } 273 Inet6AddressHolder that = (Inet6AddressHolder)o; 274 275 return Arrays.equals(this.ipaddress, that.ipaddress); 276 } 277 278 public int hashCode() { 279 if (ipaddress != null) { 280 281 int hash = 0; 282 int i=0; 283 while (i<INADDRSZ) { 284 int j=0; 285 int component=0; 286 while (j<4 && i<INADDRSZ) { 287 component = (component << 8) + ipaddress[i]; 288 j++; 289 i++; 290 } 291 hash += component; 292 } 293 return hash; 294 295 } else { 296 return 0; 297 } 298 } 299 300 boolean isIPv4CompatibleAddress() { 301 if ((ipaddress[0] == 0x00) && (ipaddress[1] == 0x00) && 302 (ipaddress[2] == 0x00) && (ipaddress[3] == 0x00) && 303 (ipaddress[4] == 0x00) && (ipaddress[5] == 0x00) && 304 (ipaddress[6] == 0x00) && (ipaddress[7] == 0x00) && 305 (ipaddress[8] == 0x00) && (ipaddress[9] == 0x00) && 306 (ipaddress[10] == 0x00) && (ipaddress[11] == 0x00)) { 307 return true; 308 } 309 return false; 310 } 311 312 boolean isMulticastAddress() { 313 return ((ipaddress[0] & 0xff) == 0xff); 314 } 315 316 boolean isAnyLocalAddress() { 317 byte test = 0x00; 318 for (int i = 0; i < INADDRSZ; i++) { 319 test |= ipaddress[i]; 320 } 321 return (test == 0x00); 322 } 323 324 boolean isLoopbackAddress() { 325 byte test = 0x00; 326 for (int i = 0; i < 15; i++) { 327 test |= ipaddress[i]; 328 } 329 return (test == 0x00) && (ipaddress[15] == 0x01); 330 } 331 332 boolean isLinkLocalAddress() { 333 return ((ipaddress[0] & 0xff) == 0xfe 334 && (ipaddress[1] & 0xc0) == 0x80); 335 } 336 337 338 boolean isSiteLocalAddress() { 339 return ((ipaddress[0] & 0xff) == 0xfe 340 && (ipaddress[1] & 0xc0) == 0xc0); 341 } 342 343 boolean isMCGlobal() { 344 return ((ipaddress[0] & 0xff) == 0xff 345 && (ipaddress[1] & 0x0f) == 0x0e); 346 } 347 348 boolean isMCNodeLocal() { 349 return ((ipaddress[0] & 0xff) == 0xff 350 && (ipaddress[1] & 0x0f) == 0x01); 351 } 352 353 boolean isMCLinkLocal() { 354 return ((ipaddress[0] & 0xff) == 0xff 355 && (ipaddress[1] & 0x0f) == 0x02); 356 } 357 358 boolean isMCSiteLocal() { 359 return ((ipaddress[0] & 0xff) == 0xff 360 && (ipaddress[1] & 0x0f) == 0x05); 361 } 362 363 boolean isMCOrgLocal() { 364 return ((ipaddress[0] & 0xff) == 0xff 365 && (ipaddress[1] & 0x0f) == 0x08); 366 } 367 } 368 369 private final transient Inet6AddressHolder holder6; 370 371 private static final long serialVersionUID = 6880410070516793377L; 372 373 // Perform native initialization 374 static { init(); } 375 376 Inet6Address() { 377 super(); 378 holder.init(null, IPv6); 379 holder6 = new Inet6AddressHolder(); 380 } 381 382 /* checking of value for scope_id should be done by caller 383 * scope_id must be >= 0, or -1 to indicate not being set 384 */ 385 Inet6Address(String hostName, byte addr[], int scope_id) { 386 holder.init(hostName, IPv6); 387 holder6 = new Inet6AddressHolder(); 388 holder6.init(addr, scope_id); 389 } 390 391 Inet6Address(String hostName, byte addr[]) { 392 holder6 = new Inet6AddressHolder(); 393 try { 394 initif (hostName, addr, null); 395 } catch (UnknownHostException e) {} /* cant happen if ifname is null */ 396 } 397 398 Inet6Address (String hostName, byte addr[], NetworkInterface nif) 399 throws UnknownHostException 400 { 401 holder6 = new Inet6AddressHolder(); 402 initif (hostName, addr, nif); 403 } 404 405 Inet6Address (String hostName, byte addr[], String ifname) 406 throws UnknownHostException 407 { 408 holder6 = new Inet6AddressHolder(); 409 initstr (hostName, addr, ifname); 410 } 411 412 /** 413 * Create an Inet6Address in the exact manner of {@link 414 * InetAddress#getByAddress(String,byte[])} except that the IPv6 scope_id is 415 * set to the value corresponding to the given interface for the address 416 * type specified in {@code addr}. The call will fail with an 417 * UnknownHostException if the given interface does not have a numeric 418 * scope_id assigned for the given address type (e.g. link-local or site-local). 419 * See <a href="Inet6Address.html#scoped">here</a> for a description of IPv6 420 * scoped addresses. 421 * 422 * @param host the specified host 423 * @param addr the raw IP address in network byte order 424 * @param nif an interface this address must be associated with. 425 * @return an Inet6Address object created from the raw IP address. 426 * @throws UnknownHostException 427 * if IP address is of illegal length, or if the interface does not 428 * have a numeric scope_id assigned for the given address type. 429 * 430 * @since 1.5 431 */ 432 public static Inet6Address getByAddress(String host, byte[] addr, 433 NetworkInterface nif) 434 throws UnknownHostException 435 { 436 if (host != null && host.length() > 0 && host.charAt(0) == '[') { 437 if (host.charAt(host.length()-1) == ']') { 438 host = host.substring(1, host.length() -1); 439 } 440 } 441 if (addr != null) { 442 if (addr.length == Inet6Address.INADDRSZ) { 443 return new Inet6Address(host, addr, nif); 444 } 445 } 446 throw new UnknownHostException("addr is of illegal length"); 447 } 448 449 /** 450 * Create an Inet6Address in the exact manner of {@link 451 * InetAddress#getByAddress(String,byte[])} except that the IPv6 scope_id is 452 * set to the given numeric value. The scope_id is not checked to determine 453 * if it corresponds to any interface on the system. 454 * See <a href="Inet6Address.html#scoped">here</a> for a description of IPv6 455 * scoped addresses. 456 * 457 * @param host the specified host 458 * @param addr the raw IP address in network byte order 459 * @param scope_id the numeric scope_id for the address. 460 * @return an Inet6Address object created from the raw IP address. 461 * @throws UnknownHostException if IP address is of illegal length. 462 * 463 * @since 1.5 464 */ 465 public static Inet6Address getByAddress(String host, byte[] addr, 466 int scope_id) 467 throws UnknownHostException 468 { 469 if (host != null && host.length() > 0 && host.charAt(0) == '[') { 470 if (host.charAt(host.length()-1) == ']') { 471 host = host.substring(1, host.length() -1); 472 } 473 } 474 if (addr != null) { 475 if (addr.length == Inet6Address.INADDRSZ) { 476 return new Inet6Address(host, addr, scope_id); 477 } 478 } 479 throw new UnknownHostException("addr is of illegal length"); 480 } 481 482 private void initstr(String hostName, byte addr[], String ifname) 483 throws UnknownHostException 484 { 485 try { 486 NetworkInterface nif = NetworkInterface.getByName (ifname); 487 if (nif == null) { 488 throw new UnknownHostException ("no such interface " + ifname); 489 } 490 initif (hostName, addr, nif); 491 } catch (SocketException e) { 492 throw new UnknownHostException ("SocketException thrown" + ifname); 493 } 494 } 495 496 private void initif(String hostName, byte addr[], NetworkInterface nif) 497 throws UnknownHostException 498 { 499 int family = -1; 500 holder6.init(addr, nif); 501 502 if (addr.length == INADDRSZ) { // normal IPv6 address 503 family = IPv6; 504 } 505 holder.init(hostName, family); 506 } 507 508 /* check the two Ipv6 addresses and return false if they are both 509 * non global address types, but not the same. 510 * (i.e. one is site-local and the other link-local) 511 * return true otherwise. 512 */ 513 514 private static boolean isDifferentLocalAddressType( 515 byte[] thisAddr, byte[] otherAddr) { 516 517 if (Inet6Address.isLinkLocalAddress(thisAddr) && 518 !Inet6Address.isLinkLocalAddress(otherAddr)) { 519 return false; 520 } 521 if (Inet6Address.isSiteLocalAddress(thisAddr) && 522 !Inet6Address.isSiteLocalAddress(otherAddr)) { 523 return false; 524 } 525 return true; 526 } 527 528 private static int deriveNumericScope (byte[] thisAddr, NetworkInterface ifc) throws UnknownHostException { 529 Enumeration<InetAddress> addresses = ifc.getInetAddresses(); 530 while (addresses.hasMoreElements()) { 531 InetAddress addr = addresses.nextElement(); 532 if (!(addr instanceof Inet6Address)) { 533 continue; 534 } 535 Inet6Address ia6_addr = (Inet6Address)addr; 536 /* check if site or link local prefixes match */ 537 if (!isDifferentLocalAddressType(thisAddr, ia6_addr.getAddress())){ 538 /* type not the same, so carry on searching */ 539 continue; 540 } 541 /* found a matching address - return its scope_id */ 542 return ia6_addr.getScopeId(); 543 } 544 throw new UnknownHostException ("no scope_id found"); 545 } 546 547 private int deriveNumericScope (String ifname) throws UnknownHostException { 548 Enumeration<NetworkInterface> en; 549 try { 550 en = NetworkInterface.getNetworkInterfaces(); 551 } catch (SocketException e) { 552 throw new UnknownHostException ("could not enumerate local network interfaces"); 553 } 554 while (en.hasMoreElements()) { 555 NetworkInterface ifc = en.nextElement(); 556 if (ifc.getName().equals (ifname)) { 557 return deriveNumericScope(holder6.ipaddress, ifc); 558 } 559 } 560 throw new UnknownHostException ("No matching address found for interface : " +ifname); 561 } 562 563 /** 564 * @serialField ipaddress byte[] 565 * @serialField scope_id int 566 * @serialField scope_id_set boolean 567 * @serialField scope_ifname_set boolean 568 * @serialField ifname String 569 */ 570 571 private static final ObjectStreamField[] serialPersistentFields = { 572 new ObjectStreamField("ipaddress", byte[].class), 573 new ObjectStreamField("scope_id", int.class), 574 new ObjectStreamField("scope_id_set", boolean.class), 575 new ObjectStreamField("scope_ifname_set", boolean.class), 576 new ObjectStreamField("ifname", String.class) 577 }; 578 579 private static final jdk.internal.misc.Unsafe UNSAFE 580 = jdk.internal.misc.Unsafe.getUnsafe(); 581 private static final long FIELDS_OFFSET = UNSAFE.objectFieldOffset( 582 Inet6Address.class, "holder6"); 583 584 /** 585 * restore the state of this object from stream 586 * including the scope information, only if the 587 * scoped interface name is valid on this system 588 */ 589 private void readObject(ObjectInputStream s) 590 throws IOException, ClassNotFoundException { 591 NetworkInterface scope_ifname = null; 592 593 if (getClass().getClassLoader() != null) { 594 throw new SecurityException ("invalid address type"); 595 } 596 597 ObjectInputStream.GetField gf = s.readFields(); 598 byte[] ipaddress = (byte[])gf.get("ipaddress", new byte[0]); 599 int scope_id = gf.get("scope_id", -1); 600 boolean scope_id_set = gf.get("scope_id_set", false); 601 boolean scope_ifname_set = gf.get("scope_ifname_set", false); 602 String ifname = (String)gf.get("ifname", null); 603 604 if (ifname != null && !"".equals (ifname)) { 605 try { 606 scope_ifname = NetworkInterface.getByName(ifname); 607 if (scope_ifname == null) { 608 /* the interface does not exist on this system, so we clear 609 * the scope information completely */ 610 scope_id_set = false; 611 scope_ifname_set = false; 612 scope_id = 0; 613 } else { 614 scope_ifname_set = true; 615 try { 616 scope_id = deriveNumericScope (ipaddress, scope_ifname); 617 } catch (UnknownHostException e) { 618 // typically should not happen, but it may be that 619 // the machine being used for deserialization has 620 // the same interface name but without IPv6 configured. 621 } 622 } 623 } catch (SocketException e) {} 624 } 625 626 /* if ifname was not supplied, then the numeric info is used */ 627 628 ipaddress = ipaddress.clone(); 629 630 // Check that our invariants are satisfied 631 if (ipaddress.length != INADDRSZ) { 632 throw new InvalidObjectException("invalid address length: "+ 633 ipaddress.length); 634 } 635 636 if (holder.getFamily() != IPv6) { 637 throw new InvalidObjectException("invalid address family type"); 638 } 639 640 Inet6AddressHolder h = new Inet6AddressHolder( 641 ipaddress, scope_id, scope_id_set, scope_ifname, scope_ifname_set 642 ); 643 644 UNSAFE.putReference(this, FIELDS_OFFSET, h); 645 } 646 647 /** 648 * default behavior is overridden in order to write the 649 * scope_ifname field as a String, rather than a NetworkInterface 650 * which is not serializable 651 */ 652 private synchronized void writeObject(ObjectOutputStream s) 653 throws IOException 654 { 655 String ifname = null; 656 657 if (holder6.scope_ifname != null) { 658 ifname = holder6.scope_ifname.getName(); 659 holder6.scope_ifname_set = true; 660 } 661 ObjectOutputStream.PutField pfields = s.putFields(); 662 pfields.put("ipaddress", holder6.ipaddress); 663 pfields.put("scope_id", holder6.scope_id); 664 pfields.put("scope_id_set", holder6.scope_id_set); 665 pfields.put("scope_ifname_set", holder6.scope_ifname_set); 666 pfields.put("ifname", ifname); 667 s.writeFields(); 668 } 669 670 /** 671 * Utility routine to check if the InetAddress is an IP multicast 672 * address. 11111111 at the start of the address identifies the 673 * address as being a multicast address. 674 * 675 * @return a {@code boolean} indicating if the InetAddress is an IP 676 * multicast address 677 */ 678 @Override 679 public boolean isMulticastAddress() { 680 return holder6.isMulticastAddress(); 681 } 682 683 /** 684 * Utility routine to check if the InetAddress is a wildcard address. 685 * 686 * @return a {@code boolean} indicating if the InetAddress is 687 * a wildcard address. 688 */ 689 @Override 690 public boolean isAnyLocalAddress() { 691 return holder6.isAnyLocalAddress(); 692 } 693 694 /** 695 * Utility routine to check if the InetAddress is a loopback address. 696 * 697 * @return a {@code boolean} indicating if the InetAddress is a loopback 698 * address; or false otherwise. 699 */ 700 @Override 701 public boolean isLoopbackAddress() { 702 return holder6.isLoopbackAddress(); 703 } 704 705 /** 706 * Utility routine to check if the InetAddress is an link local address. 707 * 708 * @return a {@code boolean} indicating if the InetAddress is a link local 709 * address; or false if address is not a link local unicast address. 710 */ 711 @Override 712 public boolean isLinkLocalAddress() { 713 return holder6.isLinkLocalAddress(); 714 } 715 716 /* static version of above */ 717 static boolean isLinkLocalAddress(byte[] ipaddress) { 718 return ((ipaddress[0] & 0xff) == 0xfe 719 && (ipaddress[1] & 0xc0) == 0x80); 720 } 721 722 /** 723 * Utility routine to check if the InetAddress is a site local address. 724 * 725 * @return a {@code boolean} indicating if the InetAddress is a site local 726 * address; or false if address is not a site local unicast address. 727 */ 728 @Override 729 public boolean isSiteLocalAddress() { 730 return holder6.isSiteLocalAddress(); 731 } 732 733 /* static version of above */ 734 static boolean isSiteLocalAddress(byte[] ipaddress) { 735 return ((ipaddress[0] & 0xff) == 0xfe 736 && (ipaddress[1] & 0xc0) == 0xc0); 737 } 738 739 /** 740 * Utility routine to check if the multicast address has global scope. 741 * 742 * @return a {@code boolean} indicating if the address has is a multicast 743 * address of global scope, false if it is not of global scope or 744 * it is not a multicast address 745 */ 746 @Override 747 public boolean isMCGlobal() { 748 return holder6.isMCGlobal(); 749 } 750 751 /** 752 * Utility routine to check if the multicast address has node scope. 753 * 754 * @return a {@code boolean} indicating if the address has is a multicast 755 * address of node-local scope, false if it is not of node-local 756 * scope or it is not a multicast address 757 */ 758 @Override 759 public boolean isMCNodeLocal() { 760 return holder6.isMCNodeLocal(); 761 } 762 763 /** 764 * Utility routine to check if the multicast address has link scope. 765 * 766 * @return a {@code boolean} indicating if the address has is a multicast 767 * address of link-local scope, false if it is not of link-local 768 * scope or it is not a multicast address 769 */ 770 @Override 771 public boolean isMCLinkLocal() { 772 return holder6.isMCLinkLocal(); 773 } 774 775 /** 776 * Utility routine to check if the multicast address has site scope. 777 * 778 * @return a {@code boolean} indicating if the address has is a multicast 779 * address of site-local scope, false if it is not of site-local 780 * scope or it is not a multicast address 781 */ 782 @Override 783 public boolean isMCSiteLocal() { 784 return holder6.isMCSiteLocal(); 785 } 786 787 /** 788 * Utility routine to check if the multicast address has organization scope. 789 * 790 * @return a {@code boolean} indicating if the address has is a multicast 791 * address of organization-local scope, false if it is not of 792 * organization-local scope or it is not a multicast address 793 */ 794 @Override 795 public boolean isMCOrgLocal() { 796 return holder6.isMCOrgLocal(); 797 } 798 /** 799 * Returns the raw IP address of this {@code InetAddress} object. The result 800 * is in network byte order: the highest order byte of the address is in 801 * {@code getAddress()[0]}. 802 * 803 * @return the raw IP address of this object. 804 */ 805 @Override 806 public byte[] getAddress() { 807 return holder6.ipaddress.clone(); 808 } 809 810 /** 811 * Returns the numeric scopeId, if this instance is associated with 812 * an interface. If no scoped_id is set, the returned value is zero. 813 * 814 * @return the scopeId, or zero if not set. 815 * 816 * @since 1.5 817 */ 818 public int getScopeId() { 819 return holder6.scope_id; 820 } 821 822 /** 823 * Returns the scoped interface, if this instance was created with 824 * a scoped interface. 825 * 826 * @return the scoped interface, or null if not set. 827 * @since 1.5 828 */ 829 public NetworkInterface getScopedInterface() { 830 return holder6.scope_ifname; 831 } 832 833 /** 834 * Returns the IP address string in textual presentation. If the instance 835 * was created specifying a scope identifier then the scope id is appended 836 * to the IP address preceded by a "%" (per-cent) character. This can be 837 * either a numeric value or a string, depending on which was used to create 838 * the instance. 839 * 840 * @return the raw IP address in a string format. 841 */ 842 @Override 843 public String getHostAddress() { 844 return holder6.getHostAddress(); 845 } 846 847 /** 848 * Returns a hashcode for this IP address. 849 * 850 * @return a hash code value for this IP address. 851 */ 852 @Override 853 public int hashCode() { 854 return holder6.hashCode(); 855 } 856 857 /** 858 * Compares this object against the specified object. The result is {@code 859 * true} if and only if the argument is not {@code null} and it represents 860 * the same IP address as this object. 861 * 862 * <p> Two instances of {@code InetAddress} represent the same IP address 863 * if the length of the byte arrays returned by {@code getAddress} is the 864 * same for both, and each of the array components is the same for the byte 865 * arrays. 866 * 867 * @param obj the object to compare against. 868 * 869 * @return {@code true} if the objects are the same; {@code false} otherwise. 870 * 871 * @see java.net.InetAddress#getAddress() 872 */ 873 @Override 874 public boolean equals(Object obj) { 875 if (obj == null || !(obj instanceof Inet6Address)) 876 return false; 877 878 Inet6Address inetAddr = (Inet6Address)obj; 879 880 return holder6.equals(inetAddr.holder6); 881 } 882 883 /** 884 * Utility routine to check if the InetAddress is an 885 * IPv4 compatible IPv6 address. 886 * 887 * @return a {@code boolean} indicating if the InetAddress is an IPv4 888 * compatible IPv6 address; or false if address is IPv4 address. 889 */ 890 public boolean isIPv4CompatibleAddress() { 891 return holder6.isIPv4CompatibleAddress(); 892 } 893 894 // Utilities 895 896 private static final int INT16SZ = 2; 897 898 /** 899 * Convert IPv6 binary address into presentation (printable) format. 900 * 901 * @param src a byte array representing the IPv6 numeric address 902 * @return a String representing an IPv6 address in 903 * textual representation format 904 */ 905 static String numericToTextFormat(byte[] src) { 906 StringBuilder sb = new StringBuilder(39); 907 for (int i = 0; i < (INADDRSZ / INT16SZ); i++) { 908 sb.append(Integer.toHexString(((src[i<<1]<<8) & 0xff00) 909 | (src[(i<<1)+1] & 0xff))); 910 if (i < (INADDRSZ / INT16SZ) -1 ) { 911 sb.append(":"); 912 } 913 } 914 return sb.toString(); 915 } 916 917 /** 918 * Perform class load-time initializations. 919 */ 920 private static native void init(); 921 }