1 /* 2 * Licensed to the Apache Software Foundation (ASF) under one or more 3 * contributor license agreements. See the NOTICE file distributed with 4 * this work for additional information regarding copyright ownership. 5 * The ASF licenses this file to You under the Apache License, Version 2.0 6 * (the "License"); you may not use this file except in compliance with 7 * the License. You may obtain a copy of the License at 8 * 9 * http://www.apache.org/licenses/LICENSE-2.0 10 * 11 * Unless required by applicable law or agreed to in writing, software 12 * distributed under the License is distributed on an "AS IS" BASIS, 13 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. 14 * See the License for the specific language governing permissions and 15 * limitations under the License. 16 */ 17 18 package java.net; 19 20 import java.io.IOException; 21 import java.io.ObjectInputStream; 22 import java.io.ObjectOutputStream; 23 import java.io.Serializable; 24 import java.util.Locale; 25 import libcore.net.UriCodec; 26 import libcore.net.url.UrlUtils; 27 28 /** 29 * A Uniform Resource Identifier that identifies an abstract or physical 30 * resource, as specified by <a href="http://www.ietf.org/rfc/rfc2396.txt">RFC 31 * 2396</a>. 32 * 33 * <h3>Parts of a URI</h3> 34 * A URI is composed of many parts. This class can both parse URI strings into 35 * parts and compose URI strings from parts. For example, consider the parts of 36 * this URI: 37 * {@code http://username:password@host:8080/directory/file?query#fragment} 38 * <table> 39 * <tr><th>Component </th><th>Example value </th><th>Also known as</th></tr> 40 * <tr><td>{@link #getScheme() Scheme} </td><td>{@code http} </td><td>protocol</td></tr> 41 * <tr><td>{@link #getSchemeSpecificPart() Scheme-specific part}</td><td>{@code //username:password@host:8080/directory/file?query#fragment}</td><td></td></tr> 42 * <tr><td>{@link #getAuthority() Authority} </td><td>{@code username:password@host:8080} </td><td></td></tr> 43 * <tr><td>{@link #getUserInfo() User Info} </td><td>{@code username:password} </td><td></td></tr> 44 * <tr><td>{@link #getHost() Host} </td><td>{@code host} </td><td></td></tr> 45 * <tr><td>{@link #getPort() Port} </td><td>{@code 8080} </td><td></td></tr> 46 * <tr><td>{@link #getPath() Path} </td><td>{@code /directory/file} </td><td></td></tr> 47 * <tr><td>{@link #getQuery() Query} </td><td>{@code query} </td><td></td></tr> 48 * <tr><td>{@link #getFragment() Fragment} </td><td>{@code fragment} </td><td>ref</td></tr> 49 * </table> 50 * 51 * <h3>Absolute vs. Relative URIs</h3> 52 * URIs are either {@link #isAbsolute() absolute or relative}. 53 * <ul> 54 * <li><strong>Absolute:</strong> {@code http://android.com/robots.txt} 55 * <li><strong>Relative:</strong> {@code robots.txt} 56 * </ul> 57 * 58 * <p>Absolute URIs always have a scheme. If its scheme is supported by {@link 59 * URL}, you can use {@link #toURL} to convert an absolute URI to a URL. 60 * 61 * <p>Relative URIs do not have a scheme and cannot be converted to URLs. If you 62 * have the absolute URI that a relative URI is relative to, you can use {@link 63 * #resolve} to compute the referenced absolute URI. Symmetrically, you can use 64 * {@link #relativize} to compute the relative URI from one URI to another. 65 * <pre> {@code 66 * URI absolute = new URI("http://android.com/"); 67 * URI relative = new URI("robots.txt"); 68 * URI resolved = new URI("http://android.com/robots.txt"); 69 * 70 * // print "http://android.com/robots.txt" 71 * System.out.println(absolute.resolve(relative)); 72 * 73 * // print "robots.txt" 74 * System.out.println(absolute.relativize(resolved)); 75 * }</pre> 76 * 77 * <h3>Opaque vs. Hierarchical URIs</h3> 78 * Absolute URIs are either {@link #isOpaque() opaque or hierarchical}. Relative 79 * URIs are always hierarchical. 80 * <ul> 81 * <li><strong>Hierarchical:</strong> {@code http://android.com/robots.txt} 82 * <li><strong>Opaque:</strong> {@code mailto:robots (at) example.com} 83 * </ul> 84 * 85 * <p>Opaque URIs have both a scheme and a scheme-specific part that does not 86 * begin with the slash character: {@code /}. The contents of the 87 * scheme-specific part of an opaque URI is not parsed so an opaque URI never 88 * has an authority, user info, host, port, path or query. An opaque URIs may 89 * have a fragment, however. A typical opaque URI is 90 * {@code mailto:robots (at) example.com}. 91 * <table> 92 * <tr><th>Component </th><th>Example value </th></tr> 93 * <tr><td>Scheme </td><td>{@code mailto} </td></tr> 94 * <tr><td>Scheme-specific part</td><td>{@code robots (at) example.com}</td></tr> 95 * <tr><td>Fragment </td><td> </td></tr> 96 * </table> 97 * <p>Hierarchical URIs may have values for any URL component. They always 98 * have a non-null path, though that path may be the empty string. 99 * 100 * <h3>Encoding and Decoding URI Components</h3> 101 * Each component of a URI permits a limited set of legal characters. Other 102 * characters must first be <i>encoded</i> before they can be embedded in a URI. 103 * To recover the original characters from a URI, they may be <i>decoded</i>. 104 * <strong>Contrary to what you might expect,</strong> this class uses the 105 * term <i>raw</i> to refer to encoded strings. The non-<i>raw</i> accessors 106 * return decoded strings. For example, consider how this URI is decoded: 107 * {@code http://user:pa55w%3Frd@host:80/doc%7Csearch?q=green%20robots#over%206%22} 108 * <table> 109 * <tr><th>Component </th><th>Legal Characters </th><th>Other Constraints </th><th>Raw Value </th><th>Value</th></tr> 110 * <tr><td>Scheme </td><td>{@code 0-9}, {@code a-z}, {@code A-Z}, {@code +-.} </td><td>First character must be in {@code a-z}, {@code A-Z}</td><td> </td><td>{@code http}</td></tr> 111 * <tr><td>Scheme-specific part</td><td>{@code 0-9}, {@code a-z}, {@code A-Z}, {@code _-!.~'()*,;:$&+=?/[]@}</td><td>Non-ASCII characters okay </td><td>{@code //user:pa55w%3Frd@host:80/doc%7Csearch?q=green%20robots}</td><td>{@code //user:pa55w?rd@host:80/doc|search?q=green robots}</td></tr> 112 * <tr><td>Authority </td><td>{@code 0-9}, {@code a-z}, {@code A-Z}, {@code _-!.~'()*,;:$&+=@[]} </td><td>Non-ASCII characters okay </td><td>{@code user:pa55w%3Frd@host:80} </td><td>{@code user:pa55w?rd@host:80}</td></tr> 113 * <tr><td>User Info </td><td>{@code 0-9}, {@code a-z}, {@code A-Z}, {@code _-!.~'()*,;:$&+=} </td><td>Non-ASCII characters okay </td><td>{@code user:pa55w%3Frd} </td><td>{@code user:pa55w?rd}</td></tr> 114 * <tr><td>Host </td><td>{@code 0-9}, {@code a-z}, {@code A-Z}, {@code -.[]} </td><td>Domain name, IPv4 address or [IPv6 address] </td><td> </td><td>host</td></tr> 115 * <tr><td>Port </td><td>{@code 0-9} </td><td> </td><td> </td><td>{@code 80}</td></tr> 116 * <tr><td>Path </td><td>{@code 0-9}, {@code a-z}, {@code A-Z}, {@code _-!.~'()*,;:$&+=/@} </td><td>Non-ASCII characters okay </td><td>{@code /doc%7Csearch} </td><td>{@code /doc|search}</td></tr> 117 * <tr><td>Query </td><td>{@code 0-9}, {@code a-z}, {@code A-Z}, {@code _-!.~'()*,;:$&+=?/[]@}</td><td>Non-ASCII characters okay </td><td>{@code q=green%20robots} </td><td>{@code q=green robots}</td></tr> 118 * <tr><td>Fragment </td><td>{@code 0-9}, {@code a-z}, {@code A-Z}, {@code _-!.~'()*,;:$&+=?/[]@}</td><td>Non-ASCII characters okay </td><td>{@code over%206%22} </td><td>{@code over 6"}</td></tr> 119 * </table> 120 * A URI's host, port and scheme are not eligible for encoding and must not 121 * contain illegal characters. 122 * 123 * <p>To encode a URI, invoke any of the multiple-parameter constructors of this 124 * class. These constructors accept your original strings and encode them into 125 * their raw form. 126 * 127 * <p>To decode a URI, invoke the single-string constructor, and then use the 128 * appropriate accessor methods to get the decoded components. 129 * 130 * <p>The {@link URL} class can be used to retrieve resources by their URI. 131 */ 132 public final class URI implements Comparable<URI>, Serializable { 133 134 private static final long serialVersionUID = -6052424284110960213l; 135 136 static final String UNRESERVED = "_-!.~\'()*"; 137 static final String PUNCTUATION = ",;:$&+="; 138 139 static final UriCodec USER_INFO_ENCODER = new PartEncoder(""); 140 static final UriCodec PATH_ENCODER = new PartEncoder("/@"); 141 static final UriCodec AUTHORITY_ENCODER = new PartEncoder("@[]"); 142 143 /** for java.net.URL, which foolishly combines these two parts */ 144 static final UriCodec FILE_AND_QUERY_ENCODER = new PartEncoder("/@?"); 145 146 /** for query, fragment, and scheme-specific part */ 147 static final UriCodec ALL_LEGAL_ENCODER = new PartEncoder("?/[]@"); 148 149 /** Retains all ASCII chars including delimiters. */ 150 private static final UriCodec ASCII_ONLY = new UriCodec() { 151 @Override protected boolean isRetained(char c) { 152 return c <= 127; 153 } 154 }; 155 156 /** 157 * Encodes the unescaped characters of {@code s} that are not permitted. 158 * Permitted characters are: 159 * <ul> 160 * <li>Unreserved characters in <a href="http://www.ietf.org/rfc/rfc2396.txt">RFC 2396</a>. 161 * <li>{@code extraOkayChars}, 162 * <li>non-ASCII, non-control, non-whitespace characters 163 * </ul> 164 */ 165 private static class PartEncoder extends UriCodec { 166 private final String extraLegalCharacters; 167 168 PartEncoder(String extraLegalCharacters) { 169 this.extraLegalCharacters = extraLegalCharacters; 170 } 171 172 @Override protected boolean isRetained(char c) { 173 return UNRESERVED.indexOf(c) != -1 174 || PUNCTUATION.indexOf(c) != -1 175 || extraLegalCharacters.indexOf(c) != -1 176 || (c > 127 && !Character.isSpaceChar(c) && !Character.isISOControl(c)); 177 } 178 } 179 180 private String string; 181 private transient String scheme; 182 private transient String schemeSpecificPart; 183 private transient String authority; 184 private transient String userInfo; 185 private transient String host; 186 private transient int port = -1; 187 private transient String path; 188 private transient String query; 189 private transient String fragment; 190 private transient boolean opaque; 191 private transient boolean absolute; 192 private transient boolean serverAuthority = false; 193 194 private transient int hash = -1; 195 196 private URI() {} 197 198 /** 199 * Creates a new URI instance by parsing {@code spec}. 200 * 201 * @param spec a URI whose illegal characters have all been encoded. 202 */ 203 public URI(String spec) throws URISyntaxException { 204 parseURI(spec, false); 205 } 206 207 /** 208 * Creates a new URI instance of the given unencoded component parts. 209 * 210 * @param scheme the URI scheme, or null for a non-absolute URI. 211 */ 212 public URI(String scheme, String schemeSpecificPart, String fragment) 213 throws URISyntaxException { 214 StringBuilder uri = new StringBuilder(); 215 if (scheme != null) { 216 uri.append(scheme); 217 uri.append(':'); 218 } 219 if (schemeSpecificPart != null) { 220 ALL_LEGAL_ENCODER.appendEncoded(uri, schemeSpecificPart); 221 } 222 if (fragment != null) { 223 uri.append('#'); 224 ALL_LEGAL_ENCODER.appendEncoded(uri, fragment); 225 } 226 227 parseURI(uri.toString(), false); 228 } 229 230 /** 231 * Creates a new URI instance of the given unencoded component parts. 232 * 233 * @param scheme the URI scheme, or null for a non-absolute URI. 234 */ 235 public URI(String scheme, String userInfo, String host, int port, String path, String query, 236 String fragment) throws URISyntaxException { 237 if (scheme == null && userInfo == null && host == null && path == null 238 && query == null && fragment == null) { 239 this.path = ""; 240 return; 241 } 242 243 if (scheme != null && path != null && !path.isEmpty() && path.charAt(0) != '/') { 244 throw new URISyntaxException(path, "Relative path"); 245 } 246 247 StringBuilder uri = new StringBuilder(); 248 if (scheme != null) { 249 uri.append(scheme); 250 uri.append(':'); 251 } 252 253 if (userInfo != null || host != null || port != -1) { 254 uri.append("//"); 255 } 256 257 if (userInfo != null) { 258 USER_INFO_ENCODER.appendEncoded(uri, userInfo); 259 uri.append('@'); 260 } 261 262 if (host != null) { 263 // check for IPv6 addresses that hasn't been enclosed in square brackets 264 if (host.indexOf(':') != -1 && host.indexOf(']') == -1 && host.indexOf('[') == -1) { 265 host = "[" + host + "]"; 266 } 267 uri.append(host); 268 } 269 270 if (port != -1) { 271 uri.append(':'); 272 uri.append(port); 273 } 274 275 if (path != null) { 276 PATH_ENCODER.appendEncoded(uri, path); 277 } 278 279 if (query != null) { 280 uri.append('?'); 281 ALL_LEGAL_ENCODER.appendEncoded(uri, query); 282 } 283 284 if (fragment != null) { 285 uri.append('#'); 286 ALL_LEGAL_ENCODER.appendEncoded(uri, fragment); 287 } 288 289 parseURI(uri.toString(), true); 290 } 291 292 /** 293 * Creates a new URI instance of the given unencoded component parts. 294 * 295 * @param scheme the URI scheme, or null for a non-absolute URI. 296 */ 297 public URI(String scheme, String host, String path, String fragment) throws URISyntaxException { 298 this(scheme, null, host, -1, path, null, fragment); 299 } 300 301 /** 302 * Creates a new URI instance of the given unencoded component parts. 303 * 304 * @param scheme the URI scheme, or null for a non-absolute URI. 305 */ 306 public URI(String scheme, String authority, String path, String query, 307 String fragment) throws URISyntaxException { 308 if (scheme != null && path != null && !path.isEmpty() && path.charAt(0) != '/') { 309 throw new URISyntaxException(path, "Relative path"); 310 } 311 312 StringBuilder uri = new StringBuilder(); 313 if (scheme != null) { 314 uri.append(scheme); 315 uri.append(':'); 316 } 317 if (authority != null) { 318 uri.append("//"); 319 AUTHORITY_ENCODER.appendEncoded(uri, authority); 320 } 321 322 if (path != null) { 323 PATH_ENCODER.appendEncoded(uri, path); 324 } 325 if (query != null) { 326 uri.append('?'); 327 ALL_LEGAL_ENCODER.appendEncoded(uri, query); 328 } 329 if (fragment != null) { 330 uri.append('#'); 331 ALL_LEGAL_ENCODER.appendEncoded(uri, fragment); 332 } 333 334 parseURI(uri.toString(), false); 335 } 336 337 /** 338 * Breaks uri into its component parts. This first splits URI into scheme, 339 * scheme-specific part and fragment: 340 * [scheme:][scheme-specific part][#fragment] 341 * 342 * Then it breaks the scheme-specific part into authority, path and query: 343 * [//authority][path][?query] 344 * 345 * Finally it delegates to parseAuthority to break the authority into user 346 * info, host and port: 347 * [user-info@][host][:port] 348 */ 349 private void parseURI(String uri, boolean forceServer) throws URISyntaxException { 350 string = uri; 351 352 // "#fragment" 353 int fragmentStart = UrlUtils.findFirstOf(uri, "#", 0, uri.length()); 354 if (fragmentStart < uri.length()) { 355 fragment = ALL_LEGAL_ENCODER.validate(uri, fragmentStart + 1, uri.length(), "fragment"); 356 } 357 358 // scheme: 359 int start; 360 int colon = UrlUtils.findFirstOf(uri, ":", 0, fragmentStart); 361 if (colon < UrlUtils.findFirstOf(uri, "/?#", 0, fragmentStart)) { 362 absolute = true; 363 scheme = validateScheme(uri, colon); 364 start = colon + 1; 365 366 if (start == fragmentStart) { 367 throw new URISyntaxException(uri, "Scheme-specific part expected", start); 368 } 369 370 // URIs with schemes followed by a non-/ char are opaque and need no further parsing. 371 if (!uri.regionMatches(start, "/", 0, 1)) { 372 opaque = true; 373 schemeSpecificPart = ALL_LEGAL_ENCODER.validate( 374 uri, start, fragmentStart, "scheme specific part"); 375 return; 376 } 377 } else { 378 absolute = false; 379 start = 0; 380 } 381 382 opaque = false; 383 schemeSpecificPart = uri.substring(start, fragmentStart); 384 385 // "//authority" 386 int fileStart; 387 if (uri.regionMatches(start, "//", 0, 2)) { 388 int authorityStart = start + 2; 389 fileStart = UrlUtils.findFirstOf(uri, "/?", authorityStart, fragmentStart); 390 if (authorityStart == uri.length()) { 391 throw new URISyntaxException(uri, "Authority expected", uri.length()); 392 } 393 if (authorityStart < fileStart) { 394 authority = AUTHORITY_ENCODER.validate(uri, authorityStart, fileStart, "authority"); 395 } 396 } else { 397 fileStart = start; 398 } 399 400 // "path" 401 int queryStart = UrlUtils.findFirstOf(uri, "?", fileStart, fragmentStart); 402 path = PATH_ENCODER.validate(uri, fileStart, queryStart, "path"); 403 404 // "?query" 405 if (queryStart < fragmentStart) { 406 query = ALL_LEGAL_ENCODER.validate(uri, queryStart + 1, fragmentStart, "query"); 407 } 408 409 parseAuthority(forceServer); 410 } 411 412 private String validateScheme(String uri, int end) throws URISyntaxException { 413 if (end == 0) { 414 throw new URISyntaxException(uri, "Scheme expected", 0); 415 } 416 417 for (int i = 0; i < end; i++) { 418 if (!UrlUtils.isValidSchemeChar(i, uri.charAt(i))) { 419 throw new URISyntaxException(uri, "Illegal character in scheme", 0); 420 } 421 } 422 423 return uri.substring(0, end); 424 } 425 426 /** 427 * Breaks this URI's authority into user info, host and port parts. 428 * [user-info@][host][:port] 429 * If any part of this fails this method will give up and potentially leave 430 * these fields with their default values. 431 * 432 * @param forceServer true to always throw if the authority cannot be 433 * parsed. If false, this method may still throw for some kinds of 434 * errors; this unpredictable behavior is consistent with the RI. 435 */ 436 private void parseAuthority(boolean forceServer) throws URISyntaxException { 437 if (authority == null) { 438 return; 439 } 440 441 String tempUserInfo = null; 442 String temp = authority; 443 int index = temp.indexOf('@'); 444 int hostIndex = 0; 445 if (index != -1) { 446 // remove user info 447 tempUserInfo = temp.substring(0, index); 448 validateUserInfo(authority, tempUserInfo, 0); 449 temp = temp.substring(index + 1); // host[:port] is left 450 hostIndex = index + 1; 451 } 452 453 index = temp.lastIndexOf(':'); 454 int endIndex = temp.indexOf(']'); 455 456 String tempHost; 457 int tempPort = -1; 458 if (index != -1 && endIndex < index) { 459 // determine port and host 460 tempHost = temp.substring(0, index); 461 462 if (index < (temp.length() - 1)) { // port part is not empty 463 try { 464 tempPort = Integer.parseInt(temp.substring(index + 1)); 465 if (tempPort < 0) { 466 if (forceServer) { 467 throw new URISyntaxException(authority, 468 "Invalid port number", hostIndex + index + 1); 469 } 470 return; 471 } 472 } catch (NumberFormatException e) { 473 if (forceServer) { 474 throw new URISyntaxException(authority, 475 "Invalid port number", hostIndex + index + 1); 476 } 477 return; 478 } 479 } 480 } else { 481 tempHost = temp; 482 } 483 484 if (tempHost.isEmpty()) { 485 if (forceServer) { 486 throw new URISyntaxException(authority, "Expected host", hostIndex); 487 } 488 return; 489 } 490 491 if (!isValidHost(forceServer, tempHost)) { 492 return; 493 } 494 495 // this is a server based uri, 496 // fill in the userInfo, host and port fields 497 userInfo = tempUserInfo; 498 host = tempHost; 499 port = tempPort; 500 serverAuthority = true; 501 } 502 503 private void validateUserInfo(String uri, String userInfo, int index) 504 throws URISyntaxException { 505 for (int i = 0; i < userInfo.length(); i++) { 506 char ch = userInfo.charAt(i); 507 if (ch == ']' || ch == '[') { 508 throw new URISyntaxException(uri, "Illegal character in userInfo", index + i); 509 } 510 } 511 } 512 513 /** 514 * Returns true if {@code host} is a well-formed host name or IP address. 515 * 516 * @param forceServer true to always throw if the host cannot be parsed. If 517 * false, this method may still throw for some kinds of errors; this 518 * unpredictable behavior is consistent with the RI. 519 */ 520 private boolean isValidHost(boolean forceServer, String host) throws URISyntaxException { 521 if (host.startsWith("[")) { 522 // IPv6 address 523 if (!host.endsWith("]")) { 524 throw new URISyntaxException(host, 525 "Expected a closing square bracket for IPv6 address", 0); 526 } 527 if (InetAddress.isNumeric(host)) { 528 // If it's numeric, the presence of square brackets guarantees 529 // that it's a numeric IPv6 address. 530 return true; 531 } 532 throw new URISyntaxException(host, "Malformed IPv6 address"); 533 } 534 535 // '[' and ']' can only be the first char and last char 536 // of the host name 537 if (host.indexOf('[') != -1 || host.indexOf(']') != -1) { 538 throw new URISyntaxException(host, "Illegal character in host name", 0); 539 } 540 541 int index = host.lastIndexOf('.'); 542 if (index < 0 || index == host.length() - 1 543 || !Character.isDigit(host.charAt(index + 1))) { 544 // domain name 545 if (isValidDomainName(host)) { 546 return true; 547 } 548 if (forceServer) { 549 throw new URISyntaxException(host, "Illegal character in host name", 0); 550 } 551 return false; 552 } 553 554 // IPv4 address? 555 try { 556 InetAddress ia = InetAddress.parseNumericAddress(host); 557 if (ia instanceof Inet4Address) { 558 return true; 559 } 560 } catch (IllegalArgumentException ignored) { 561 } 562 563 if (forceServer) { 564 throw new URISyntaxException(host, "Malformed IPv4 address", 0); 565 } 566 return false; 567 } 568 569 private boolean isValidDomainName(String host) { 570 try { 571 UriCodec.validateSimple(host, "-."); 572 } catch (URISyntaxException e) { 573 return false; 574 } 575 576 String lastLabel = null; 577 for (String token : host.split("\\.")) { 578 lastLabel = token; 579 if (lastLabel.startsWith("-") || lastLabel.endsWith("-")) { 580 return false; 581 } 582 } 583 584 if (lastLabel == null) { 585 return false; 586 } 587 588 if (!lastLabel.equals(host)) { 589 char ch = lastLabel.charAt(0); 590 if (ch >= '0' && ch <= '9') { 591 return false; 592 } 593 } 594 return true; 595 } 596 597 /** 598 * Compares this URI with the given argument {@code uri}. This method will 599 * return a negative value if this URI instance is less than the given 600 * argument and a positive value if this URI instance is greater than the 601 * given argument. The return value {@code 0} indicates that the two 602 * instances represent the same URI. To define the order the single parts of 603 * the URI are compared with each other. String components will be ordered 604 * in the natural case-sensitive way. A hierarchical URI is less than an 605 * opaque URI and if one part is {@code null} the URI with the undefined 606 * part is less than the other one. 607 * 608 * @param uri 609 * the URI this instance has to compare with. 610 * @return the value representing the order of the two instances. 611 */ 612 public int compareTo(URI uri) { 613 int ret; 614 615 // compare schemes 616 if (scheme == null && uri.scheme != null) { 617 return -1; 618 } else if (scheme != null && uri.scheme == null) { 619 return 1; 620 } else if (scheme != null && uri.scheme != null) { 621 ret = scheme.compareToIgnoreCase(uri.scheme); 622 if (ret != 0) { 623 return ret; 624 } 625 } 626 627 // compare opacities 628 if (!opaque && uri.opaque) { 629 return -1; 630 } else if (opaque && !uri.opaque) { 631 return 1; 632 } else if (opaque && uri.opaque) { 633 ret = schemeSpecificPart.compareTo(uri.schemeSpecificPart); 634 if (ret != 0) { 635 return ret; 636 } 637 } else { 638 639 // otherwise both must be hierarchical 640 641 // compare authorities 642 if (authority != null && uri.authority == null) { 643 return 1; 644 } else if (authority == null && uri.authority != null) { 645 return -1; 646 } else if (authority != null && uri.authority != null) { 647 if (host != null && uri.host != null) { 648 // both are server based, so compare userInfo, host, port 649 if (userInfo != null && uri.userInfo == null) { 650 return 1; 651 } else if (userInfo == null && uri.userInfo != null) { 652 return -1; 653 } else if (userInfo != null && uri.userInfo != null) { 654 ret = userInfo.compareTo(uri.userInfo); 655 if (ret != 0) { 656 return ret; 657 } 658 } 659 660 // userInfo's are the same, compare hostname 661 ret = host.compareToIgnoreCase(uri.host); 662 if (ret != 0) { 663 return ret; 664 } 665 666 // compare port 667 if (port != uri.port) { 668 return port - uri.port; 669 } 670 } else { // one or both are registry based, compare the whole 671 // authority 672 ret = authority.compareTo(uri.authority); 673 if (ret != 0) { 674 return ret; 675 } 676 } 677 } 678 679 // authorities are the same 680 // compare paths 681 ret = path.compareTo(uri.path); 682 if (ret != 0) { 683 return ret; 684 } 685 686 // compare queries 687 688 if (query != null && uri.query == null) { 689 return 1; 690 } else if (query == null && uri.query != null) { 691 return -1; 692 } else if (query != null && uri.query != null) { 693 ret = query.compareTo(uri.query); 694 if (ret != 0) { 695 return ret; 696 } 697 } 698 } 699 700 // everything else is identical, so compare fragments 701 if (fragment != null && uri.fragment == null) { 702 return 1; 703 } else if (fragment == null && uri.fragment != null) { 704 return -1; 705 } else if (fragment != null && uri.fragment != null) { 706 ret = fragment.compareTo(uri.fragment); 707 if (ret != 0) { 708 return ret; 709 } 710 } 711 712 // identical 713 return 0; 714 } 715 716 /** 717 * Returns the URI formed by parsing {@code uri}. This method behaves 718 * identically to the string constructor but throws a different exception 719 * on failure. The constructor fails with a checked {@link 720 * URISyntaxException}; this method fails with an unchecked {@link 721 * IllegalArgumentException}. 722 */ 723 public static URI create(String uri) { 724 try { 725 return new URI(uri); 726 } catch (URISyntaxException e) { 727 throw new IllegalArgumentException(e.getMessage()); 728 } 729 } 730 731 private URI duplicate() { 732 URI clone = new URI(); 733 clone.absolute = absolute; 734 clone.authority = authority; 735 clone.fragment = fragment; 736 clone.host = host; 737 clone.opaque = opaque; 738 clone.path = path; 739 clone.port = port; 740 clone.query = query; 741 clone.scheme = scheme; 742 clone.schemeSpecificPart = schemeSpecificPart; 743 clone.userInfo = userInfo; 744 clone.serverAuthority = serverAuthority; 745 return clone; 746 } 747 748 /* 749 * Takes a string that may contain hex sequences like %F1 or %2b and 750 * converts the hex values following the '%' to lowercase 751 */ 752 private String convertHexToLowerCase(String s) { 753 StringBuilder result = new StringBuilder(""); 754 if (s.indexOf('%') == -1) { 755 return s; 756 } 757 758 int index, prevIndex = 0; 759 while ((index = s.indexOf('%', prevIndex)) != -1) { 760 result.append(s.substring(prevIndex, index + 1)); 761 result.append(s.substring(index + 1, index + 3).toLowerCase(Locale.US)); 762 index += 3; 763 prevIndex = index; 764 } 765 return result.toString(); 766 } 767 768 /** 769 * Returns true if {@code first} and {@code second} are equal after 770 * unescaping hex sequences like %F1 and %2b. 771 */ 772 private boolean escapedEquals(String first, String second) { 773 if (first.indexOf('%') != second.indexOf('%')) { 774 return first.equals(second); 775 } 776 777 int index, prevIndex = 0; 778 while ((index = first.indexOf('%', prevIndex)) != -1 779 && second.indexOf('%', prevIndex) == index) { 780 boolean match = first.substring(prevIndex, index).equals( 781 second.substring(prevIndex, index)); 782 if (!match) { 783 return false; 784 } 785 786 match = first.substring(index + 1, index + 3).equalsIgnoreCase( 787 second.substring(index + 1, index + 3)); 788 if (!match) { 789 return false; 790 } 791 792 index += 3; 793 prevIndex = index; 794 } 795 return first.substring(prevIndex).equals(second.substring(prevIndex)); 796 } 797 798 @Override public boolean equals(Object o) { 799 if (!(o instanceof URI)) { 800 return false; 801 } 802 URI uri = (URI) o; 803 804 if (uri.fragment == null && fragment != null || uri.fragment != null 805 && fragment == null) { 806 return false; 807 } else if (uri.fragment != null && fragment != null) { 808 if (!escapedEquals(uri.fragment, fragment)) { 809 return false; 810 } 811 } 812 813 if (uri.scheme == null && scheme != null || uri.scheme != null 814 && scheme == null) { 815 return false; 816 } else if (uri.scheme != null && scheme != null) { 817 if (!uri.scheme.equalsIgnoreCase(scheme)) { 818 return false; 819 } 820 } 821 822 if (uri.opaque && opaque) { 823 return escapedEquals(uri.schemeSpecificPart, 824 schemeSpecificPart); 825 } else if (!uri.opaque && !opaque) { 826 if (!escapedEquals(path, uri.path)) { 827 return false; 828 } 829 830 if (uri.query != null && query == null || uri.query == null 831 && query != null) { 832 return false; 833 } else if (uri.query != null && query != null) { 834 if (!escapedEquals(uri.query, query)) { 835 return false; 836 } 837 } 838 839 if (uri.authority != null && authority == null 840 || uri.authority == null && authority != null) { 841 return false; 842 } else if (uri.authority != null && authority != null) { 843 if (uri.host != null && host == null || uri.host == null 844 && host != null) { 845 return false; 846 } else if (uri.host == null && host == null) { 847 // both are registry based, so compare the whole authority 848 return escapedEquals(uri.authority, authority); 849 } else { // uri.host != null && host != null, so server-based 850 if (!host.equalsIgnoreCase(uri.host)) { 851 return false; 852 } 853 854 if (port != uri.port) { 855 return false; 856 } 857 858 if (uri.userInfo != null && userInfo == null 859 || uri.userInfo == null && userInfo != null) { 860 return false; 861 } else if (uri.userInfo != null && userInfo != null) { 862 return escapedEquals(userInfo, uri.userInfo); 863 } else { 864 return true; 865 } 866 } 867 } else { 868 // no authority 869 return true; 870 } 871 872 } else { 873 // one is opaque, the other hierarchical 874 return false; 875 } 876 } 877 878 /** 879 * Returns the scheme of this URI, or null if this URI has no scheme. This 880 * is also known as the protocol. 881 */ 882 public String getScheme() { 883 return scheme; 884 } 885 886 /** 887 * Returns the decoded scheme-specific part of this URI, or null if this URI 888 * has no scheme-specific part. 889 */ 890 public String getSchemeSpecificPart() { 891 return decode(schemeSpecificPart); 892 } 893 894 /** 895 * Returns the encoded scheme-specific part of this URI, or null if this URI 896 * has no scheme-specific part. 897 */ 898 public String getRawSchemeSpecificPart() { 899 return schemeSpecificPart; 900 } 901 902 /** 903 * Returns the decoded authority part of this URI, or null if this URI has 904 * no authority. 905 */ 906 public String getAuthority() { 907 return decode(authority); 908 } 909 910 /** 911 * Returns the encoded authority of this URI, or null if this URI has no 912 * authority. 913 */ 914 public String getRawAuthority() { 915 return authority; 916 } 917 918 /** 919 * Returns the decoded user info of this URI, or null if this URI has no 920 * user info. 921 */ 922 public String getUserInfo() { 923 return decode(userInfo); 924 } 925 926 /** 927 * Returns the encoded user info of this URI, or null if this URI has no 928 * user info. 929 */ 930 public String getRawUserInfo() { 931 return userInfo; 932 } 933 934 /** 935 * Returns the host of this URI, or null if this URI has no host. 936 */ 937 public String getHost() { 938 return host; 939 } 940 941 /** 942 * Returns the port number of this URI, or {@code -1} if this URI has no 943 * explicit port. 944 */ 945 public int getPort() { 946 return port; 947 } 948 949 /** @hide */ 950 public int getEffectivePort() { 951 return getEffectivePort(scheme, port); 952 } 953 954 /** 955 * Returns the port to use for {@code scheme} connections will use when 956 * {@link #getPort} returns {@code specifiedPort}. 957 * 958 * @hide 959 */ 960 public static int getEffectivePort(String scheme, int specifiedPort) { 961 if (specifiedPort != -1) { 962 return specifiedPort; 963 } 964 965 if ("http".equalsIgnoreCase(scheme)) { 966 return 80; 967 } else if ("https".equalsIgnoreCase(scheme)) { 968 return 443; 969 } else { 970 return -1; 971 } 972 } 973 974 /** 975 * Returns the decoded path of this URI, or null if this URI has no path. 976 */ 977 public String getPath() { 978 return decode(path); 979 } 980 981 /** 982 * Returns the encoded path of this URI, or null if this URI has no path. 983 */ 984 public String getRawPath() { 985 return path; 986 } 987 988 /** 989 * Returns the decoded query of this URI, or null if this URI has no query. 990 */ 991 public String getQuery() { 992 return decode(query); 993 } 994 995 /** 996 * Returns the encoded query of this URI, or null if this URI has no query. 997 */ 998 public String getRawQuery() { 999 return query; 1000 } 1001 1002 /** 1003 * Returns the decoded fragment of this URI, or null if this URI has no 1004 * fragment. 1005 */ 1006 public String getFragment() { 1007 return decode(fragment); 1008 } 1009 1010 /** 1011 * Gets the encoded fragment of this URI, or null if this URI has no 1012 * fragment. 1013 */ 1014 public String getRawFragment() { 1015 return fragment; 1016 } 1017 1018 @Override public int hashCode() { 1019 if (hash == -1) { 1020 hash = getHashString().hashCode(); 1021 } 1022 return hash; 1023 } 1024 1025 /** 1026 * Returns true if this URI is absolute, which means that a scheme is 1027 * defined. 1028 */ 1029 public boolean isAbsolute() { 1030 // TODO: simplify to 'scheme != null' ? 1031 return absolute; 1032 } 1033 1034 /** 1035 * Returns true if this URI is opaque. Opaque URIs are absolute and have a 1036 * scheme-specific part that does not start with a slash character. All 1037 * parts except scheme, scheme-specific and fragment are undefined. 1038 */ 1039 public boolean isOpaque() { 1040 return opaque; 1041 } 1042 1043 /** 1044 * Returns the normalized path. 1045 */ 1046 private String normalize(String path, boolean discardRelativePrefix) { 1047 path = UrlUtils.canonicalizePath(path, discardRelativePrefix); 1048 1049 /* 1050 * If the path contains a colon before the first colon, prepend 1051 * "./" to differentiate the path from a scheme prefix. 1052 */ 1053 int colon = path.indexOf(':'); 1054 if (colon != -1) { 1055 int slash = path.indexOf('/'); 1056 if (slash == -1 || colon < slash) { 1057 path = "./" + path; 1058 } 1059 } 1060 1061 return path; 1062 } 1063 1064 /** 1065 * Normalizes the path part of this URI. 1066 * 1067 * @return an URI object which represents this instance with a normalized 1068 * path. 1069 */ 1070 public URI normalize() { 1071 if (opaque) { 1072 return this; 1073 } 1074 String normalizedPath = normalize(path, false); 1075 // if the path is already normalized, return this 1076 if (path.equals(normalizedPath)) { 1077 return this; 1078 } 1079 // get an exact copy of the URI re-calculate the scheme specific part 1080 // since the path of the normalized URI is different from this URI. 1081 URI result = duplicate(); 1082 result.path = normalizedPath; 1083 result.setSchemeSpecificPart(); 1084 return result; 1085 } 1086 1087 /** 1088 * Tries to parse the authority component of this URI to divide it into the 1089 * host, port, and user-info. If this URI is already determined as a 1090 * ServerAuthority this instance will be returned without changes. 1091 * 1092 * @return this instance with the components of the parsed server authority. 1093 * @throws URISyntaxException 1094 * if the authority part could not be parsed as a server-based 1095 * authority. 1096 */ 1097 public URI parseServerAuthority() throws URISyntaxException { 1098 if (!serverAuthority) { 1099 parseAuthority(true); 1100 } 1101 return this; 1102 } 1103 1104 /** 1105 * Makes the given URI {@code relative} to a relative URI against the URI 1106 * represented by this instance. 1107 * 1108 * @param relative 1109 * the URI which has to be relativized against this URI. 1110 * @return the relative URI. 1111 */ 1112 public URI relativize(URI relative) { 1113 if (relative.opaque || opaque) { 1114 return relative; 1115 } 1116 1117 if (scheme == null ? relative.scheme != null : !scheme 1118 .equals(relative.scheme)) { 1119 return relative; 1120 } 1121 1122 if (authority == null ? relative.authority != null : !authority 1123 .equals(relative.authority)) { 1124 return relative; 1125 } 1126 1127 // normalize both paths 1128 String thisPath = normalize(path, false); 1129 String relativePath = normalize(relative.path, false); 1130 1131 /* 1132 * if the paths aren't equal, then we need to determine if this URI's 1133 * path is a parent path (begins with) the relative URI's path 1134 */ 1135 if (!thisPath.equals(relativePath)) { 1136 // drop everything after the last slash in this path 1137 thisPath = thisPath.substring(0, thisPath.lastIndexOf('/') + 1); 1138 1139 /* 1140 * if the relative URI's path doesn't start with this URI's path, 1141 * then just return the relative URI; the URIs have nothing in 1142 * common 1143 */ 1144 if (!relativePath.startsWith(thisPath)) { 1145 return relative; 1146 } 1147 } 1148 1149 URI result = new URI(); 1150 result.fragment = relative.fragment; 1151 result.query = relative.query; 1152 // the result URI is the remainder of the relative URI's path 1153 result.path = relativePath.substring(thisPath.length()); 1154 result.setSchemeSpecificPart(); 1155 return result; 1156 } 1157 1158 /** 1159 * Resolves the given URI {@code relative} against the URI represented by 1160 * this instance. 1161 * 1162 * @param relative 1163 * the URI which has to be resolved against this URI. 1164 * @return the resolved URI. 1165 */ 1166 public URI resolve(URI relative) { 1167 if (relative.absolute || opaque) { 1168 return relative; 1169 } 1170 1171 if (relative.authority != null) { 1172 // If the relative URI has an authority, the result is the relative 1173 // with this URI's scheme. 1174 URI result = relative.duplicate(); 1175 result.scheme = scheme; 1176 result.absolute = absolute; 1177 return result; 1178 } 1179 1180 if (relative.path.isEmpty() && relative.scheme == null && relative.query == null) { 1181 // if the relative URI only consists of at most a fragment, 1182 URI result = duplicate(); 1183 result.fragment = relative.fragment; 1184 return result; 1185 } 1186 1187 URI result = duplicate(); 1188 result.fragment = relative.fragment; 1189 result.query = relative.query; 1190 String resolvedPath; 1191 if (relative.path.startsWith("/")) { 1192 // The relative URI has an absolute path; use it. 1193 resolvedPath = relative.path; 1194 } else if (relative.path.isEmpty()) { 1195 // The relative URI has no path; use the base path. 1196 resolvedPath = path; 1197 } else { 1198 // The relative URI has a relative path; combine the paths. 1199 int endIndex = path.lastIndexOf('/') + 1; 1200 resolvedPath = path.substring(0, endIndex) + relative.path; 1201 } 1202 result.path = UrlUtils.authoritySafePath(result.authority, normalize(resolvedPath, true)); 1203 result.setSchemeSpecificPart(); 1204 return result; 1205 } 1206 1207 /** 1208 * Helper method used to re-calculate the scheme specific part of the 1209 * resolved or normalized URIs 1210 */ 1211 private void setSchemeSpecificPart() { 1212 // ssp = [//authority][path][?query] 1213 StringBuilder ssp = new StringBuilder(); 1214 if (authority != null) { 1215 ssp.append("//" + authority); 1216 } 1217 if (path != null) { 1218 ssp.append(path); 1219 } 1220 if (query != null) { 1221 ssp.append("?" + query); 1222 } 1223 schemeSpecificPart = ssp.toString(); 1224 // reset string, so that it can be re-calculated correctly when asked. 1225 string = null; 1226 } 1227 1228 /** 1229 * Creates a new URI instance by parsing the given string {@code relative} 1230 * and resolves the created URI against the URI represented by this 1231 * instance. 1232 * 1233 * @param relative 1234 * the given string to create the new URI instance which has to 1235 * be resolved later on. 1236 * @return the created and resolved URI. 1237 */ 1238 public URI resolve(String relative) { 1239 return resolve(create(relative)); 1240 } 1241 1242 private String decode(String s) { 1243 return s != null ? UriCodec.decode(s) : null; 1244 } 1245 1246 /** 1247 * Returns the textual string representation of this URI instance using the 1248 * US-ASCII encoding. 1249 * 1250 * @return the US-ASCII string representation of this URI. 1251 */ 1252 public String toASCIIString() { 1253 StringBuilder result = new StringBuilder(); 1254 ASCII_ONLY.appendEncoded(result, toString()); 1255 return result.toString(); 1256 } 1257 1258 /** 1259 * Returns the encoded URI. 1260 */ 1261 @Override public String toString() { 1262 if (string != null) { 1263 return string; 1264 } 1265 1266 StringBuilder result = new StringBuilder(); 1267 if (scheme != null) { 1268 result.append(scheme); 1269 result.append(':'); 1270 } 1271 if (opaque) { 1272 result.append(schemeSpecificPart); 1273 } else { 1274 if (authority != null) { 1275 result.append("//"); 1276 result.append(authority); 1277 } 1278 1279 if (path != null) { 1280 result.append(path); 1281 } 1282 1283 if (query != null) { 1284 result.append('?'); 1285 result.append(query); 1286 } 1287 } 1288 1289 if (fragment != null) { 1290 result.append('#'); 1291 result.append(fragment); 1292 } 1293 1294 string = result.toString(); 1295 return string; 1296 } 1297 1298 /* 1299 * Form a string from the components of this URI, similarly to the 1300 * toString() method. But this method converts scheme and host to lowercase, 1301 * and converts escaped octets to lowercase. 1302 */ 1303 private String getHashString() { 1304 StringBuilder result = new StringBuilder(); 1305 if (scheme != null) { 1306 result.append(scheme.toLowerCase(Locale.US)); 1307 result.append(':'); 1308 } 1309 if (opaque) { 1310 result.append(schemeSpecificPart); 1311 } else { 1312 if (authority != null) { 1313 result.append("//"); 1314 if (host == null) { 1315 result.append(authority); 1316 } else { 1317 if (userInfo != null) { 1318 result.append(userInfo + "@"); 1319 } 1320 result.append(host.toLowerCase(Locale.US)); 1321 if (port != -1) { 1322 result.append(":" + port); 1323 } 1324 } 1325 } 1326 1327 if (path != null) { 1328 result.append(path); 1329 } 1330 1331 if (query != null) { 1332 result.append('?'); 1333 result.append(query); 1334 } 1335 } 1336 1337 if (fragment != null) { 1338 result.append('#'); 1339 result.append(fragment); 1340 } 1341 1342 return convertHexToLowerCase(result.toString()); 1343 } 1344 1345 /** 1346 * Converts this URI instance to a URL. 1347 * 1348 * @return the created URL representing the same resource as this URI. 1349 * @throws MalformedURLException 1350 * if an error occurs while creating the URL or no protocol 1351 * handler could be found. 1352 */ 1353 public URL toURL() throws MalformedURLException { 1354 if (!absolute) { 1355 throw new IllegalArgumentException("URI is not absolute: " + toString()); 1356 } 1357 return new URL(toString()); 1358 } 1359 1360 private void readObject(ObjectInputStream in) throws IOException, ClassNotFoundException { 1361 in.defaultReadObject(); 1362 try { 1363 parseURI(string, false); 1364 } catch (URISyntaxException e) { 1365 throw new IOException(e.toString()); 1366 } 1367 } 1368 1369 private void writeObject(ObjectOutputStream out) throws IOException, ClassNotFoundException { 1370 // call toString() to ensure the value of string field is calculated 1371 toString(); 1372 out.defaultWriteObject(); 1373 } 1374 } 1375