001/* 002 * Copyright 2007-2014 UnboundID Corp. 003 * All Rights Reserved. 004 */ 005/* 006 * Copyright (C) 2008-2014 UnboundID Corp. 007 * 008 * This program is free software; you can redistribute it and/or modify 009 * it under the terms of the GNU General Public License (GPLv2 only) 010 * or the terms of the GNU Lesser General Public License (LGPLv2.1 only) 011 * as published by the Free Software Foundation. 012 * 013 * This program is distributed in the hope that it will be useful, 014 * but WITHOUT ANY WARRANTY; without even the implied warranty of 015 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the 016 * GNU General Public License for more details. 017 * 018 * You should have received a copy of the GNU General Public License 019 * along with this program; if not, see <http://www.gnu.org/licenses>. 020 */ 021package com.unboundid.ldap.sdk; 022 023 024 025import java.util.ArrayList; 026import java.util.Arrays; 027import java.util.Collections; 028import java.util.List; 029import java.util.Timer; 030import java.util.concurrent.LinkedBlockingQueue; 031import java.util.concurrent.TimeUnit; 032 033import com.unboundid.asn1.ASN1Boolean; 034import com.unboundid.asn1.ASN1Buffer; 035import com.unboundid.asn1.ASN1BufferSequence; 036import com.unboundid.asn1.ASN1Element; 037import com.unboundid.asn1.ASN1Enumerated; 038import com.unboundid.asn1.ASN1Integer; 039import com.unboundid.asn1.ASN1OctetString; 040import com.unboundid.asn1.ASN1Sequence; 041import com.unboundid.ldap.protocol.LDAPMessage; 042import com.unboundid.ldap.protocol.LDAPResponse; 043import com.unboundid.ldap.protocol.ProtocolOp; 044import com.unboundid.util.InternalUseOnly; 045import com.unboundid.util.Mutable; 046import com.unboundid.util.ThreadSafety; 047import com.unboundid.util.ThreadSafetyLevel; 048 049import static com.unboundid.ldap.sdk.LDAPMessages.*; 050import static com.unboundid.util.Debug.*; 051import static com.unboundid.util.StaticUtils.*; 052import static com.unboundid.util.Validator.*; 053 054 055 056/** 057 * This class implements the processing necessary to perform an LDAPv3 search 058 * operation, which can be used to retrieve entries that match a given set of 059 * criteria. A search request may include the following elements: 060 * <UL> 061 * <LI>Base DN -- Specifies the base DN for the search. Only entries at or 062 * below this location in the server (based on the scope) will be 063 * considered potential matches.</LI> 064 * <LI>Scope -- Specifies the range of entries relative to the base DN that 065 * may be considered potential matches.</LI> 066 * <LI>Dereference Policy -- Specifies the behavior that the server should 067 * exhibit if any alias entries are encountered while processing the 068 * search. If no dereference policy is provided, then a default of 069 * {@code DereferencePolicy.NEVER} will be used.</LI> 070 * <LI>Size Limit -- Specifies the maximum number of entries that should be 071 * returned from the search. A value of zero indicates that there should 072 * not be any limit enforced. Note that the directory server may also 073 * be configured with a server-side size limit which can also limit the 074 * number of entries that may be returned to the client and in that case 075 * the smaller of the client-side and server-side limits will be 076 * used. If no size limit is provided, then a default of zero (unlimited) 077 * will be used.</LI> 078 * <LI>Time Limit -- Specifies the maximum length of time in seconds that the 079 * server should spend processing the search. A value of zero indicates 080 * that there should not be any limit enforced. Note that the directory 081 * server may also be configured with a server-side time limit which can 082 * also limit the processing time, and in that case the smaller of the 083 * client-side and server-side limits will be used. If no time limit is 084 * provided, then a default of zero (unlimited) will be used.</LI> 085 * <LI>Types Only -- Indicates whether matching entries should include only 086 * attribute names, or both attribute names and values. If no value is 087 * provided, then a default of {@code false} will be used.</LI> 088 * <LI>Filter -- Specifies the criteria for determining which entries should 089 * be returned. See the {@link Filter} class for the types of filters 090 * that may be used. 091 * <BR><BR> 092 * Note that filters can be specified using either their string 093 * representations or as {@link Filter} objects. As noted in the 094 * documentation for the {@link Filter} class, using the string 095 * representation may be somewhat dangerous if the data is not properly 096 * sanitized because special characters contained in the filter may cause 097 * it to be invalid or worse expose a vulnerability that could cause the 098 * filter to request more information than was intended. As a result, if 099 * the filter may include special characters or user-provided strings, 100 * then it is recommended that you use {@link Filter} objects created from 101 * their individual components rather than their string representations. 102 * </LI> 103 * <LI>Attributes -- Specifies the set of attributes that should be included 104 * in matching entries. If no attributes are provided, then the server 105 * will default to returning all user attributes. If a specified set of 106 * attributes is given, then only those attributes will be included. 107 * Values that may be included to indicate a special meaning include: 108 * <UL> 109 * <LI>{@code NO_ATTRIBUTES} -- Indicates that no attributes should be 110 * returned. That is, only the DNs of matching entries will be 111 * returned.</LI> 112 * <LI>{@code ALL_USER_ATTRIBUTES} -- Indicates that all user attributes 113 * should be included in matching entries. This is the default if 114 * no attributes are provided, but this special value may be 115 * included if a specific set of operational attributes should be 116 * included along with all user attributes.</LI> 117 * <LI>{@code ALL_OPERATIONAL_ATTRIBUTES} -- Indicates that all 118 * operational attributes should be included in matching 119 * entries.</LI> 120 * </UL> 121 * These special values may be used alone or in conjunction with each 122 * other and/or any specific attribute names or OIDs.</LI> 123 * <LI>An optional set of controls to include in the request to send to the 124 * server.</LI> 125 * <LI>An optional {@link SearchResultListener} which may be used to process 126 * search result entries and search result references returned by the 127 * server in the course of processing the request. If this is 128 * {@code null}, then the entries and references will be collected and 129 * returned in the {@link SearchResult} object that is returned.</LI> 130 * </UL> 131 * When processing a search operation, there are three ways that the returned 132 * entries and references may be accessed: 133 * <UL> 134 * <LI>If the {@link LDAPInterface#search(SearchRequest)} method is used and 135 * the provided search request does not include a 136 * {@link SearchResultListener} object, then the entries and references 137 * will be collected internally and made available in the 138 * {@link SearchResult} object that is returned.</LI> 139 * <LI>If the {@link LDAPInterface#search(SearchRequest)} method is used and 140 * the provided search request does include a {@link SearchResultListener} 141 * object, then that listener will be used to provide access to the 142 * entries and references, and they will not be present in the 143 * {@link SearchResult} object (although the number of entries and 144 * references returned will still be available).</LI> 145 * <LI>The {@link LDAPEntrySource} object may be used to access the entries 146 * and references returned from the search. It uses an 147 * {@code Iterator}-like API to provide access to the entries that are 148 * returned, and any references returned will be included in the 149 * {@link EntrySourceException} thrown on the appropriate call to 150 * {@link LDAPEntrySource#nextEntry()}.</LI> 151 * </UL> 152 * <BR><BR> 153 * {@code SearchRequest} objects are mutable and therefore can be altered and 154 * re-used for multiple requests. Note, however, that {@code SearchRequest} 155 * objects are not threadsafe and therefore a single {@code SearchRequest} 156 * object instance should not be used to process multiple requests at the same 157 * time. 158 * <BR><BR> 159 * <H2>Example</H2> 160 * The following example demonstrates a simple search operation in which the 161 * client performs a search to find all users in the "Sales" department and then 162 * retrieves the name and e-mail address for each matching user: 163 * <PRE> 164 * // Construct a filter that can be used to find everyone in the Sales 165 * // department, and then create a search request to find all such users 166 * // in the directory. 167 * Filter filter = Filter.createEqualityFilter("ou", "Sales"); 168 * SearchRequest searchRequest = 169 * new SearchRequest("dc=example,dc=com", SearchScope.SUB, filter, 170 * "cn", "mail"); 171 * SearchResult searchResult; 172 * 173 * try 174 * { 175 * searchResult = connection.search(searchRequest); 176 * 177 * for (SearchResultEntry entry : searchResult.getSearchEntries()) 178 * { 179 * String name = entry.getAttributeValue("cn"); 180 * String mail = entry.getAttributeValue("mail"); 181 * } 182 * } 183 * catch (LDAPSearchException lse) 184 * { 185 * // The search failed for some reason. 186 * searchResult = lse.getSearchResult(); 187 * ResultCode resultCode = lse.getResultCode(); 188 * String errorMessageFromServer = lse.getDiagnosticMessage(); 189 * } 190 * </PRE> 191 */ 192@Mutable() 193@ThreadSafety(level=ThreadSafetyLevel.NOT_THREADSAFE) 194public final class SearchRequest 195 extends UpdatableLDAPRequest 196 implements ReadOnlySearchRequest, ResponseAcceptor, ProtocolOp 197{ 198 /** 199 * The special value "*" that can be included in the set of requested 200 * attributes to indicate that all user attributes should be returned. 201 */ 202 public static final String ALL_USER_ATTRIBUTES = "*"; 203 204 205 206 /** 207 * The special value "+" that can be included in the set of requested 208 * attributes to indicate that all operational attributes should be returned. 209 */ 210 public static final String ALL_OPERATIONAL_ATTRIBUTES = "+"; 211 212 213 214 /** 215 * The special value "1.1" that can be included in the set of requested 216 * attributes to indicate that no attributes should be returned, with the 217 * exception of any other attributes explicitly named in the set of requested 218 * attributes. 219 */ 220 public static final String NO_ATTRIBUTES = "1.1"; 221 222 223 224 /** 225 * The default set of requested attributes that will be used, which will 226 * return all user attributes but no operational attributes. 227 */ 228 public static final String[] REQUEST_ATTRS_DEFAULT = NO_STRINGS; 229 230 231 232 /** 233 * The serial version UID for this serializable class. 234 */ 235 private static final long serialVersionUID = 1500219434086474893L; 236 237 238 239 // The set of requested attributes. 240 private String[] attributes; 241 242 // Indicates whether to retrieve attribute types only or both types and 243 // values. 244 private boolean typesOnly; 245 246 // The behavior to use when aliases are encountered. 247 private DereferencePolicy derefPolicy; 248 249 // The message ID from the last LDAP message sent from this request. 250 private int messageID = -1; 251 252 // The size limit for this search request. 253 private int sizeLimit; 254 255 // The time limit for this search request. 256 private int timeLimit; 257 258 // The parsed filter for this search request. 259 private Filter filter; 260 261 // The queue that will be used to receive response messages from the server. 262 private final LinkedBlockingQueue<LDAPResponse> responseQueue = 263 new LinkedBlockingQueue<LDAPResponse>(50); 264 265 // The search result listener that should be used to return results 266 // interactively to the requester. 267 private final SearchResultListener searchResultListener; 268 269 // The scope for this search request. 270 private SearchScope scope; 271 272 // The base DN for this search request. 273 private String baseDN; 274 275 276 277 /** 278 * Creates a new search request with the provided information. Search result 279 * entries and references will be collected internally and included in the 280 * {@code SearchResult} object returned when search processing is completed. 281 * 282 * @param baseDN The base DN for the search request. It must not be 283 * {@code null}. 284 * @param scope The scope that specifies the range of entries that 285 * should be examined for the search. 286 * @param filter The string representation of the filter to use to 287 * identify matching entries. It must not be 288 * {@code null}. 289 * @param attributes The set of attributes that should be returned in 290 * matching entries. It may be {@code null} or empty if 291 * the default attribute set (all user attributes) is to 292 * be requested. 293 * 294 * @throws LDAPException If the provided filter string cannot be parsed as 295 * an LDAP filter. 296 */ 297 public SearchRequest(final String baseDN, final SearchScope scope, 298 final String filter, final String... attributes) 299 throws LDAPException 300 { 301 this(null, null, baseDN, scope, DereferencePolicy.NEVER, 0, 0, false, 302 Filter.create(filter), attributes); 303 } 304 305 306 307 /** 308 * Creates a new search request with the provided information. Search result 309 * entries and references will be collected internally and included in the 310 * {@code SearchResult} object returned when search processing is completed. 311 * 312 * @param baseDN The base DN for the search request. It must not be 313 * {@code null}. 314 * @param scope The scope that specifies the range of entries that 315 * should be examined for the search. 316 * @param filter The string representation of the filter to use to 317 * identify matching entries. It must not be 318 * {@code null}. 319 * @param attributes The set of attributes that should be returned in 320 * matching entries. It may be {@code null} or empty if 321 * the default attribute set (all user attributes) is to 322 * be requested. 323 */ 324 public SearchRequest(final String baseDN, final SearchScope scope, 325 final Filter filter, final String... attributes) 326 { 327 this(null, null, baseDN, scope, DereferencePolicy.NEVER, 0, 0, false, 328 filter, attributes); 329 } 330 331 332 333 /** 334 * Creates a new search request with the provided information. 335 * 336 * @param searchResultListener The search result listener that should be 337 * used to return results to the client. It may 338 * be {@code null} if the search results should 339 * be collected internally and returned in the 340 * {@code SearchResult} object. 341 * @param baseDN The base DN for the search request. It must 342 * not be {@code null}. 343 * @param scope The scope that specifies the range of entries 344 * that should be examined for the search. 345 * @param filter The string representation of the filter to 346 * use to identify matching entries. It must 347 * not be {@code null}. 348 * @param attributes The set of attributes that should be returned 349 * in matching entries. It may be {@code null} 350 * or empty if the default attribute set (all 351 * user attributes) is to be requested. 352 * 353 * @throws LDAPException If the provided filter string cannot be parsed as 354 * an LDAP filter. 355 */ 356 public SearchRequest(final SearchResultListener searchResultListener, 357 final String baseDN, final SearchScope scope, 358 final String filter, final String... attributes) 359 throws LDAPException 360 { 361 this(searchResultListener, null, baseDN, scope, DereferencePolicy.NEVER, 0, 362 0, false, Filter.create(filter), attributes); 363 } 364 365 366 367 /** 368 * Creates a new search request with the provided information. 369 * 370 * @param searchResultListener The search result listener that should be 371 * used to return results to the client. It may 372 * be {@code null} if the search results should 373 * be collected internally and returned in the 374 * {@code SearchResult} object. 375 * @param baseDN The base DN for the search request. It must 376 * not be {@code null}. 377 * @param scope The scope that specifies the range of entries 378 * that should be examined for the search. 379 * @param filter The string representation of the filter to 380 * use to identify matching entries. It must 381 * not be {@code null}. 382 * @param attributes The set of attributes that should be returned 383 * in matching entries. It may be {@code null} 384 * or empty if the default attribute set (all 385 * user attributes) is to be requested. 386 */ 387 public SearchRequest(final SearchResultListener searchResultListener, 388 final String baseDN, final SearchScope scope, 389 final Filter filter, final String... attributes) 390 { 391 this(searchResultListener, null, baseDN, scope, DereferencePolicy.NEVER, 0, 392 0, false, filter, attributes); 393 } 394 395 396 397 /** 398 * Creates a new search request with the provided information. Search result 399 * entries and references will be collected internally and included in the 400 * {@code SearchResult} object returned when search processing is completed. 401 * 402 * @param baseDN The base DN for the search request. It must not be 403 * {@code null}. 404 * @param scope The scope that specifies the range of entries that 405 * should be examined for the search. 406 * @param derefPolicy The dereference policy the server should use for any 407 * aliases encountered while processing the search. 408 * @param sizeLimit The maximum number of entries that the server should 409 * return for the search. A value of zero indicates that 410 * there should be no limit. 411 * @param timeLimit The maximum length of time in seconds that the server 412 * should spend processing this search request. A value 413 * of zero indicates that there should be no limit. 414 * @param typesOnly Indicates whether to return only attribute names in 415 * matching entries, or both attribute names and values. 416 * @param filter The filter to use to identify matching entries. It 417 * must not be {@code null}. 418 * @param attributes The set of attributes that should be returned in 419 * matching entries. It may be {@code null} or empty if 420 * the default attribute set (all user attributes) is to 421 * be requested. 422 * 423 * @throws LDAPException If the provided filter string cannot be parsed as 424 * an LDAP filter. 425 */ 426 public SearchRequest(final String baseDN, final SearchScope scope, 427 final DereferencePolicy derefPolicy, final int sizeLimit, 428 final int timeLimit, final boolean typesOnly, 429 final String filter, final String... attributes) 430 throws LDAPException 431 { 432 this(null, null, baseDN, scope, derefPolicy, sizeLimit, timeLimit, 433 typesOnly, Filter.create(filter), attributes); 434 } 435 436 437 438 /** 439 * Creates a new search request with the provided information. Search result 440 * entries and references will be collected internally and included in the 441 * {@code SearchResult} object returned when search processing is completed. 442 * 443 * @param baseDN The base DN for the search request. It must not be 444 * {@code null}. 445 * @param scope The scope that specifies the range of entries that 446 * should be examined for the search. 447 * @param derefPolicy The dereference policy the server should use for any 448 * aliases encountered while processing the search. 449 * @param sizeLimit The maximum number of entries that the server should 450 * return for the search. A value of zero indicates that 451 * there should be no limit. 452 * @param timeLimit The maximum length of time in seconds that the server 453 * should spend processing this search request. A value 454 * of zero indicates that there should be no limit. 455 * @param typesOnly Indicates whether to return only attribute names in 456 * matching entries, or both attribute names and values. 457 * @param filter The filter to use to identify matching entries. It 458 * must not be {@code null}. 459 * @param attributes The set of attributes that should be returned in 460 * matching entries. It may be {@code null} or empty if 461 * the default attribute set (all user attributes) is to 462 * be requested. 463 */ 464 public SearchRequest(final String baseDN, final SearchScope scope, 465 final DereferencePolicy derefPolicy, final int sizeLimit, 466 final int timeLimit, final boolean typesOnly, 467 final Filter filter, final String... attributes) 468 { 469 this(null, null, baseDN, scope, derefPolicy, sizeLimit, timeLimit, 470 typesOnly, filter, attributes); 471 } 472 473 474 475 /** 476 * Creates a new search request with the provided information. 477 * 478 * @param searchResultListener The search result listener that should be 479 * used to return results to the client. It may 480 * be {@code null} if the search results should 481 * be collected internally and returned in the 482 * {@code SearchResult} object. 483 * @param baseDN The base DN for the search request. It must 484 * not be {@code null}. 485 * @param scope The scope that specifies the range of entries 486 * that should be examined for the search. 487 * @param derefPolicy The dereference policy the server should use 488 * for any aliases encountered while processing 489 * the search. 490 * @param sizeLimit The maximum number of entries that the server 491 * should return for the search. A value of 492 * zero indicates that there should be no limit. 493 * @param timeLimit The maximum length of time in seconds that 494 * the server should spend processing this 495 * search request. A value of zero indicates 496 * that there should be no limit. 497 * @param typesOnly Indicates whether to return only attribute 498 * names in matching entries, or both attribute 499 * names and values. 500 * @param filter The filter to use to identify matching 501 * entries. It must not be {@code null}. 502 * @param attributes The set of attributes that should be returned 503 * in matching entries. It may be {@code null} 504 * or empty if the default attribute set (all 505 * user attributes) is to be requested. 506 * 507 * @throws LDAPException If the provided filter string cannot be parsed as 508 * an LDAP filter. 509 */ 510 public SearchRequest(final SearchResultListener searchResultListener, 511 final String baseDN, final SearchScope scope, 512 final DereferencePolicy derefPolicy, final int sizeLimit, 513 final int timeLimit, final boolean typesOnly, 514 final String filter, final String... attributes) 515 throws LDAPException 516 { 517 this(searchResultListener, null, baseDN, scope, derefPolicy, sizeLimit, 518 timeLimit, typesOnly, Filter.create(filter), attributes); 519 } 520 521 522 523 /** 524 * Creates a new search request with the provided information. 525 * 526 * @param searchResultListener The search result listener that should be 527 * used to return results to the client. It may 528 * be {@code null} if the search results should 529 * be collected internally and returned in the 530 * {@code SearchResult} object. 531 * @param baseDN The base DN for the search request. It must 532 * not be {@code null}. 533 * @param scope The scope that specifies the range of entries 534 * that should be examined for the search. 535 * @param derefPolicy The dereference policy the server should use 536 * for any aliases encountered while processing 537 * the search. 538 * @param sizeLimit The maximum number of entries that the server 539 * should return for the search. A value of 540 * zero indicates that there should be no limit. 541 * @param timeLimit The maximum length of time in seconds that 542 * the server should spend processing this 543 * search request. A value of zero indicates 544 * that there should be no limit. 545 * @param typesOnly Indicates whether to return only attribute 546 * names in matching entries, or both attribute 547 * names and values. 548 * @param filter The filter to use to identify matching 549 * entries. It must not be {@code null}. 550 * @param attributes The set of attributes that should be returned 551 * in matching entries. It may be {@code null} 552 * or empty if the default attribute set (all 553 * user attributes) is to be requested. 554 */ 555 public SearchRequest(final SearchResultListener searchResultListener, 556 final String baseDN, final SearchScope scope, 557 final DereferencePolicy derefPolicy, final int sizeLimit, 558 final int timeLimit, final boolean typesOnly, 559 final Filter filter, final String... attributes) 560 { 561 this(searchResultListener, null, baseDN, scope, derefPolicy, sizeLimit, 562 timeLimit, typesOnly, filter, attributes); 563 } 564 565 566 567 /** 568 * Creates a new search request with the provided information. 569 * 570 * @param searchResultListener The search result listener that should be 571 * used to return results to the client. It may 572 * be {@code null} if the search results should 573 * be collected internally and returned in the 574 * {@code SearchResult} object. 575 * @param controls The set of controls to include in the 576 * request. It may be {@code null} or empty if 577 * no controls should be included in the 578 * request. 579 * @param baseDN The base DN for the search request. It must 580 * not be {@code null}. 581 * @param scope The scope that specifies the range of entries 582 * that should be examined for the search. 583 * @param derefPolicy The dereference policy the server should use 584 * for any aliases encountered while processing 585 * the search. 586 * @param sizeLimit The maximum number of entries that the server 587 * should return for the search. A value of 588 * zero indicates that there should be no limit. 589 * @param timeLimit The maximum length of time in seconds that 590 * the server should spend processing this 591 * search request. A value of zero indicates 592 * that there should be no limit. 593 * @param typesOnly Indicates whether to return only attribute 594 * names in matching entries, or both attribute 595 * names and values. 596 * @param filter The filter to use to identify matching 597 * entries. It must not be {@code null}. 598 * @param attributes The set of attributes that should be returned 599 * in matching entries. It may be {@code null} 600 * or empty if the default attribute set (all 601 * user attributes) is to be requested. 602 * 603 * @throws LDAPException If the provided filter string cannot be parsed as 604 * an LDAP filter. 605 */ 606 public SearchRequest(final SearchResultListener searchResultListener, 607 final Control[] controls, final String baseDN, 608 final SearchScope scope, 609 final DereferencePolicy derefPolicy, final int sizeLimit, 610 final int timeLimit, final boolean typesOnly, 611 final String filter, final String... attributes) 612 throws LDAPException 613 { 614 this(searchResultListener, controls, baseDN, scope, derefPolicy, sizeLimit, 615 timeLimit, typesOnly, Filter.create(filter), attributes); 616 } 617 618 619 620 /** 621 * Creates a new search request with the provided information. 622 * 623 * @param searchResultListener The search result listener that should be 624 * used to return results to the client. It may 625 * be {@code null} if the search results should 626 * be collected internally and returned in the 627 * {@code SearchResult} object. 628 * @param controls The set of controls to include in the 629 * request. It may be {@code null} or empty if 630 * no controls should be included in the 631 * request. 632 * @param baseDN The base DN for the search request. It must 633 * not be {@code null}. 634 * @param scope The scope that specifies the range of entries 635 * that should be examined for the search. 636 * @param derefPolicy The dereference policy the server should use 637 * for any aliases encountered while processing 638 * the search. 639 * @param sizeLimit The maximum number of entries that the server 640 * should return for the search. A value of 641 * zero indicates that there should be no limit. 642 * @param timeLimit The maximum length of time in seconds that 643 * the server should spend processing this 644 * search request. A value of zero indicates 645 * that there should be no limit. 646 * @param typesOnly Indicates whether to return only attribute 647 * names in matching entries, or both attribute 648 * names and values. 649 * @param filter The filter to use to identify matching 650 * entries. It must not be {@code null}. 651 * @param attributes The set of attributes that should be returned 652 * in matching entries. It may be {@code null} 653 * or empty if the default attribute set (all 654 * user attributes) is to be requested. 655 */ 656 public SearchRequest(final SearchResultListener searchResultListener, 657 final Control[] controls, final String baseDN, 658 final SearchScope scope, 659 final DereferencePolicy derefPolicy, final int sizeLimit, 660 final int timeLimit, final boolean typesOnly, 661 final Filter filter, final String... attributes) 662 { 663 super(controls); 664 665 ensureNotNull(baseDN, filter); 666 667 this.baseDN = baseDN; 668 this.scope = scope; 669 this.derefPolicy = derefPolicy; 670 this.typesOnly = typesOnly; 671 this.filter = filter; 672 this.searchResultListener = searchResultListener; 673 674 if (sizeLimit < 0) 675 { 676 this.sizeLimit = 0; 677 } 678 else 679 { 680 this.sizeLimit = sizeLimit; 681 } 682 683 if (timeLimit < 0) 684 { 685 this.timeLimit = 0; 686 } 687 else 688 { 689 this.timeLimit = timeLimit; 690 } 691 692 if (attributes == null) 693 { 694 this.attributes = REQUEST_ATTRS_DEFAULT; 695 } 696 else 697 { 698 this.attributes = attributes; 699 } 700 } 701 702 703 704 /** 705 * {@inheritDoc} 706 */ 707 public String getBaseDN() 708 { 709 return baseDN; 710 } 711 712 713 714 /** 715 * Specifies the base DN for this search request. 716 * 717 * @param baseDN The base DN for this search request. It must not be 718 * {@code null}. 719 */ 720 public void setBaseDN(final String baseDN) 721 { 722 ensureNotNull(baseDN); 723 724 this.baseDN = baseDN; 725 } 726 727 728 729 /** 730 * Specifies the base DN for this search request. 731 * 732 * @param baseDN The base DN for this search request. It must not be 733 * {@code null}. 734 */ 735 public void setBaseDN(final DN baseDN) 736 { 737 ensureNotNull(baseDN); 738 739 this.baseDN = baseDN.toString(); 740 } 741 742 743 744 /** 745 * {@inheritDoc} 746 */ 747 public SearchScope getScope() 748 { 749 return scope; 750 } 751 752 753 754 /** 755 * Specifies the scope for this search request. 756 * 757 * @param scope The scope for this search request. 758 */ 759 public void setScope(final SearchScope scope) 760 { 761 this.scope = scope; 762 } 763 764 765 766 /** 767 * {@inheritDoc} 768 */ 769 public DereferencePolicy getDereferencePolicy() 770 { 771 return derefPolicy; 772 } 773 774 775 776 /** 777 * Specifies the dereference policy that should be used by the server for any 778 * aliases encountered during search processing. 779 * 780 * @param derefPolicy The dereference policy that should be used by the 781 * server for any aliases encountered during search 782 * processing. 783 */ 784 public void setDerefPolicy(final DereferencePolicy derefPolicy) 785 { 786 this.derefPolicy = derefPolicy; 787 } 788 789 790 791 /** 792 * {@inheritDoc} 793 */ 794 public int getSizeLimit() 795 { 796 return sizeLimit; 797 } 798 799 800 801 /** 802 * Specifies the maximum number of entries that should be returned by the 803 * server when processing this search request. A value of zero indicates that 804 * there should be no limit. 805 * <BR><BR> 806 * Note that if an attempt to process a search operation fails because the 807 * size limit has been exceeded, an {@link LDAPSearchException} will be 808 * thrown. If one or more entries or references have already been returned 809 * for the search, then the {@code LDAPSearchException} methods like 810 * {@code getEntryCount}, {@code getSearchEntries}, {@code getReferenceCount}, 811 * and {@code getSearchReferences} may be used to obtain information about 812 * those entries and references (although if a search result listener was 813 * provided, then it will have been used to make any entries and references 814 * available, and they will not be available through the 815 * {@code getSearchEntries} and {@code getSearchReferences} methods). 816 * 817 * @param sizeLimit The maximum number of entries that should be returned by 818 * the server when processing this search request. 819 */ 820 public void setSizeLimit(final int sizeLimit) 821 { 822 if (sizeLimit < 0) 823 { 824 this.sizeLimit = 0; 825 } 826 else 827 { 828 this.sizeLimit = sizeLimit; 829 } 830 } 831 832 833 834 /** 835 * {@inheritDoc} 836 */ 837 public int getTimeLimitSeconds() 838 { 839 return timeLimit; 840 } 841 842 843 844 /** 845 * Specifies the maximum length of time in seconds that the server should 846 * spend processing this search request. A value of zero indicates that there 847 * should be no limit. 848 * <BR><BR> 849 * Note that if an attempt to process a search operation fails because the 850 * time limit has been exceeded, an {@link LDAPSearchException} will be 851 * thrown. If one or more entries or references have already been returned 852 * for the search, then the {@code LDAPSearchException} methods like 853 * {@code getEntryCount}, {@code getSearchEntries}, {@code getReferenceCount}, 854 * and {@code getSearchReferences} may be used to obtain information about 855 * those entries and references (although if a search result listener was 856 * provided, then it will have been used to make any entries and references 857 * available, and they will not be available through the 858 * {@code getSearchEntries} and {@code getSearchReferences} methods). 859 * 860 * @param timeLimit The maximum length of time in seconds that the server 861 * should spend processing this search request. 862 */ 863 public void setTimeLimitSeconds(final int timeLimit) 864 { 865 if (timeLimit < 0) 866 { 867 this.timeLimit = 0; 868 } 869 else 870 { 871 this.timeLimit = timeLimit; 872 } 873 } 874 875 876 877 /** 878 * {@inheritDoc} 879 */ 880 public boolean typesOnly() 881 { 882 return typesOnly; 883 } 884 885 886 887 /** 888 * Specifies whether the server should return only attribute names in matching 889 * entries, rather than both names and values. 890 * 891 * @param typesOnly Specifies whether the server should return only 892 * attribute names in matching entries, rather than both 893 * names and values. 894 */ 895 public void setTypesOnly(final boolean typesOnly) 896 { 897 this.typesOnly = typesOnly; 898 } 899 900 901 902 /** 903 * {@inheritDoc} 904 */ 905 public Filter getFilter() 906 { 907 return filter; 908 } 909 910 911 912 /** 913 * Specifies the filter that should be used to identify matching entries. 914 * 915 * @param filter The string representation for the filter that should be 916 * used to identify matching entries. It must not be 917 * {@code null}. 918 * 919 * @throws LDAPException If the provided filter string cannot be parsed as a 920 * search filter. 921 */ 922 public void setFilter(final String filter) 923 throws LDAPException 924 { 925 ensureNotNull(filter); 926 927 this.filter = Filter.create(filter); 928 } 929 930 931 932 /** 933 * Specifies the filter that should be used to identify matching entries. 934 * 935 * @param filter The filter that should be used to identify matching 936 * entries. It must not be {@code null}. 937 */ 938 public void setFilter(final Filter filter) 939 { 940 ensureNotNull(filter); 941 942 this.filter = filter; 943 } 944 945 946 947 /** 948 * Retrieves the set of requested attributes to include in matching entries. 949 * The caller must not attempt to alter the contents of the array. 950 * 951 * @return The set of requested attributes to include in matching entries, or 952 * an empty array if the default set of attributes (all user 953 * attributes but no operational attributes) should be requested. 954 */ 955 public String[] getAttributes() 956 { 957 return attributes; 958 } 959 960 961 962 /** 963 * {@inheritDoc} 964 */ 965 public List<String> getAttributeList() 966 { 967 return Collections.unmodifiableList(Arrays.asList(attributes)); 968 } 969 970 971 972 /** 973 * Specifies the set of requested attributes to include in matching entries. 974 * 975 * @param attributes The set of requested attributes to include in matching 976 * entries. It may be {@code null} if the default set of 977 * attributes (all user attributes but no operational 978 * attributes) should be requested. 979 */ 980 public void setAttributes(final String... attributes) 981 { 982 if (attributes == null) 983 { 984 this.attributes = REQUEST_ATTRS_DEFAULT; 985 } 986 else 987 { 988 this.attributes = attributes; 989 } 990 } 991 992 993 994 /** 995 * Specifies the set of requested attributes to include in matching entries. 996 * 997 * @param attributes The set of requested attributes to include in matching 998 * entries. It may be {@code null} if the default set of 999 * attributes (all user attributes but no operational 1000 * attributes) should be requested. 1001 */ 1002 public void setAttributes(final List<String> attributes) 1003 { 1004 if (attributes == null) 1005 { 1006 this.attributes = REQUEST_ATTRS_DEFAULT; 1007 } 1008 else 1009 { 1010 this.attributes = new String[attributes.size()]; 1011 for (int i=0; i < this.attributes.length; i++) 1012 { 1013 this.attributes[i] = attributes.get(i); 1014 } 1015 } 1016 } 1017 1018 1019 1020 /** 1021 * Retrieves the search result listener for this search request, if available. 1022 * 1023 * @return The search result listener for this search request, or 1024 * {@code null} if none has been configured. 1025 */ 1026 public SearchResultListener getSearchResultListener() 1027 { 1028 return searchResultListener; 1029 } 1030 1031 1032 1033 /** 1034 * {@inheritDoc} 1035 */ 1036 public byte getProtocolOpType() 1037 { 1038 return LDAPMessage.PROTOCOL_OP_TYPE_SEARCH_REQUEST; 1039 } 1040 1041 1042 1043 /** 1044 * {@inheritDoc} 1045 */ 1046 public void writeTo(final ASN1Buffer writer) 1047 { 1048 final ASN1BufferSequence requestSequence = 1049 writer.beginSequence(LDAPMessage.PROTOCOL_OP_TYPE_SEARCH_REQUEST); 1050 writer.addOctetString(baseDN); 1051 writer.addEnumerated(scope.intValue()); 1052 writer.addEnumerated(derefPolicy.intValue()); 1053 writer.addInteger(sizeLimit); 1054 writer.addInteger(timeLimit); 1055 writer.addBoolean(typesOnly); 1056 filter.writeTo(writer); 1057 1058 final ASN1BufferSequence attrSequence = writer.beginSequence(); 1059 for (final String s : attributes) 1060 { 1061 writer.addOctetString(s); 1062 } 1063 attrSequence.end(); 1064 requestSequence.end(); 1065 } 1066 1067 1068 1069 /** 1070 * Encodes the search request protocol op to an ASN.1 element. 1071 * 1072 * @return The ASN.1 element with the encoded search request protocol op. 1073 */ 1074 public ASN1Element encodeProtocolOp() 1075 { 1076 // Create the search request protocol op. 1077 final ASN1Element[] attrElements = new ASN1Element[attributes.length]; 1078 for (int i=0; i < attrElements.length; i++) 1079 { 1080 attrElements[i] = new ASN1OctetString(attributes[i]); 1081 } 1082 1083 final ASN1Element[] protocolOpElements = 1084 { 1085 new ASN1OctetString(baseDN), 1086 new ASN1Enumerated(scope.intValue()), 1087 new ASN1Enumerated(derefPolicy.intValue()), 1088 new ASN1Integer(sizeLimit), 1089 new ASN1Integer(timeLimit), 1090 new ASN1Boolean(typesOnly), 1091 filter.encode(), 1092 new ASN1Sequence(attrElements) 1093 }; 1094 1095 return new ASN1Sequence(LDAPMessage.PROTOCOL_OP_TYPE_SEARCH_REQUEST, 1096 protocolOpElements); 1097 } 1098 1099 1100 1101 /** 1102 * Sends this search request to the directory server over the provided 1103 * connection and returns the associated response. The search result entries 1104 * and references will either be collected and returned in the 1105 * {@code SearchResult} object that is returned, or will be interactively 1106 * returned via the {@code SearchResultListener} interface. 1107 * 1108 * @param connection The connection to use to communicate with the directory 1109 * server. 1110 * @param depth The current referral depth for this request. It should 1111 * always be one for the initial request, and should only 1112 * be incremented when following referrals. 1113 * 1114 * @return An object that provides information about the result of the 1115 * search processing, potentially including the sets of matching 1116 * entries and/or search references. 1117 * 1118 * @throws LDAPException If a problem occurs while sending the request or 1119 * reading the response. 1120 */ 1121 @Override() 1122 protected SearchResult process(final LDAPConnection connection, 1123 final int depth) 1124 throws LDAPException 1125 { 1126 if (connection.synchronousMode()) 1127 { 1128 return processSync(connection, depth, 1129 connection.getConnectionOptions().autoReconnect()); 1130 } 1131 1132 final long requestTime = System.nanoTime(); 1133 processAsync(connection, null); 1134 1135 try 1136 { 1137 // Wait for and process the response. 1138 final ArrayList<SearchResultEntry> entryList; 1139 final ArrayList<SearchResultReference> referenceList; 1140 if (searchResultListener == null) 1141 { 1142 entryList = new ArrayList<SearchResultEntry>(5); 1143 referenceList = new ArrayList<SearchResultReference>(5); 1144 } 1145 else 1146 { 1147 entryList = null; 1148 referenceList = null; 1149 } 1150 1151 int numEntries = 0; 1152 int numReferences = 0; 1153 ResultCode intermediateResultCode = ResultCode.SUCCESS; 1154 final long responseTimeout = getResponseTimeoutMillis(connection); 1155 while (true) 1156 { 1157 final LDAPResponse response; 1158 try 1159 { 1160 if (responseTimeout > 0) 1161 { 1162 response = 1163 responseQueue.poll(responseTimeout, TimeUnit.MILLISECONDS); 1164 } 1165 else 1166 { 1167 response = responseQueue.take(); 1168 } 1169 } 1170 catch (InterruptedException ie) 1171 { 1172 debugException(ie); 1173 throw new LDAPException(ResultCode.LOCAL_ERROR, 1174 ERR_SEARCH_INTERRUPTED.get(connection.getHostPort()), ie); 1175 } 1176 1177 if (response == null) 1178 { 1179 if (connection.getConnectionOptions().abandonOnTimeout()) 1180 { 1181 connection.abandon(messageID); 1182 } 1183 1184 final SearchResult searchResult = 1185 new SearchResult(messageID, ResultCode.TIMEOUT, 1186 ERR_SEARCH_CLIENT_TIMEOUT.get(responseTimeout, messageID, 1187 baseDN, scope.getName(), filter.toString(), 1188 connection.getHostPort()), 1189 null, null, entryList, referenceList, numEntries, 1190 numReferences, null); 1191 throw new LDAPSearchException(searchResult); 1192 } 1193 1194 if (response instanceof ConnectionClosedResponse) 1195 { 1196 final ConnectionClosedResponse ccr = 1197 (ConnectionClosedResponse) response; 1198 final String message = ccr.getMessage(); 1199 if (message == null) 1200 { 1201 // The connection was closed while waiting for the response. 1202 final SearchResult searchResult = 1203 new SearchResult(messageID, ccr.getResultCode(), 1204 ERR_CONN_CLOSED_WAITING_FOR_SEARCH_RESPONSE.get( 1205 connection.getHostPort(), toString()), 1206 null, null, entryList, referenceList, numEntries, 1207 numReferences, null); 1208 throw new LDAPSearchException(searchResult); 1209 } 1210 else 1211 { 1212 // The connection was closed while waiting for the response. 1213 final SearchResult searchResult = 1214 new SearchResult(messageID, ccr.getResultCode(), 1215 ERR_CONN_CLOSED_WAITING_FOR_SEARCH_RESPONSE_WITH_MESSAGE. 1216 get(connection.getHostPort(), toString(), message), 1217 null, null, entryList, referenceList, numEntries, 1218 numReferences, null); 1219 throw new LDAPSearchException(searchResult); 1220 } 1221 } 1222 else if (response instanceof SearchResultEntry) 1223 { 1224 final SearchResultEntry searchEntry = (SearchResultEntry) response; 1225 numEntries++; 1226 if (searchResultListener == null) 1227 { 1228 entryList.add(searchEntry); 1229 } 1230 else 1231 { 1232 searchResultListener.searchEntryReturned(searchEntry); 1233 } 1234 } 1235 else if (response instanceof SearchResultReference) 1236 { 1237 final SearchResultReference searchReference = 1238 (SearchResultReference) response; 1239 if (followReferrals(connection)) 1240 { 1241 final LDAPResult result = followSearchReference(messageID, 1242 searchReference, connection, depth); 1243 if (! result.getResultCode().equals(ResultCode.SUCCESS)) 1244 { 1245 // We couldn't follow the reference. We don't want to fail the 1246 // entire search because of this right now, so treat it as if 1247 // referral following had not been enabled. Also, set the 1248 // intermediate result code to match that of the result. 1249 numReferences++; 1250 if (searchResultListener == null) 1251 { 1252 referenceList.add(searchReference); 1253 } 1254 else 1255 { 1256 searchResultListener.searchReferenceReturned(searchReference); 1257 } 1258 1259 if (intermediateResultCode.equals(ResultCode.SUCCESS)) 1260 { 1261 intermediateResultCode = result.getResultCode(); 1262 } 1263 } 1264 else if (result instanceof SearchResult) 1265 { 1266 final SearchResult searchResult = (SearchResult) result; 1267 numEntries += searchResult.getEntryCount(); 1268 if (searchResultListener == null) 1269 { 1270 entryList.addAll(searchResult.getSearchEntries()); 1271 } 1272 } 1273 } 1274 else 1275 { 1276 numReferences++; 1277 if (searchResultListener == null) 1278 { 1279 referenceList.add(searchReference); 1280 } 1281 else 1282 { 1283 searchResultListener.searchReferenceReturned(searchReference); 1284 } 1285 } 1286 } 1287 else 1288 { 1289 connection.getConnectionStatistics().incrementNumSearchResponses( 1290 numEntries, numReferences, 1291 (System.nanoTime() - requestTime)); 1292 SearchResult result = (SearchResult) response; 1293 result.setCounts(numEntries, entryList, numReferences, referenceList); 1294 1295 if ((result.getResultCode().equals(ResultCode.REFERRAL)) && 1296 followReferrals(connection)) 1297 { 1298 if (depth >= 1299 connection.getConnectionOptions().getReferralHopLimit()) 1300 { 1301 return new SearchResult(messageID, 1302 ResultCode.REFERRAL_LIMIT_EXCEEDED, 1303 ERR_TOO_MANY_REFERRALS.get(), 1304 result.getMatchedDN(), 1305 result.getReferralURLs(), entryList, 1306 referenceList, numEntries, 1307 numReferences, 1308 result.getResponseControls()); 1309 } 1310 1311 result = followReferral(result, connection, depth); 1312 } 1313 1314 if ((result.getResultCode().equals(ResultCode.SUCCESS)) && 1315 (! intermediateResultCode.equals(ResultCode.SUCCESS))) 1316 { 1317 return new SearchResult(messageID, intermediateResultCode, 1318 result.getDiagnosticMessage(), 1319 result.getMatchedDN(), 1320 result.getReferralURLs(), 1321 entryList, referenceList, numEntries, 1322 numReferences, 1323 result.getResponseControls()); 1324 } 1325 1326 return result; 1327 } 1328 } 1329 } 1330 finally 1331 { 1332 connection.deregisterResponseAcceptor(messageID); 1333 } 1334 } 1335 1336 1337 1338 /** 1339 * Sends this search request to the directory server over the provided 1340 * connection and returns the message ID for the request. 1341 * 1342 * @param connection The connection to use to communicate with the 1343 * directory server. 1344 * @param resultListener The async result listener that is to be notified 1345 * when the response is received. It may be 1346 * {@code null} only if the result is to be processed 1347 * by this class. 1348 * 1349 * @return The async request ID created for the operation, or {@code null} if 1350 * the provided {@code resultListener} is {@code null} and the 1351 * operation will not actually be processed asynchronously. 1352 * 1353 * @throws LDAPException If a problem occurs while sending the request. 1354 */ 1355 AsyncRequestID processAsync(final LDAPConnection connection, 1356 final AsyncSearchResultListener resultListener) 1357 throws LDAPException 1358 { 1359 // Create the LDAP message. 1360 messageID = connection.nextMessageID(); 1361 final LDAPMessage message = new LDAPMessage(messageID, this, getControls()); 1362 1363 1364 // If the provided async result listener is {@code null}, then we'll use 1365 // this class as the message acceptor. Otherwise, create an async helper 1366 // and use it as the message acceptor. 1367 final AsyncRequestID asyncRequestID; 1368 if (resultListener == null) 1369 { 1370 asyncRequestID = null; 1371 connection.registerResponseAcceptor(messageID, this); 1372 } 1373 else 1374 { 1375 final AsyncSearchHelper helper = new AsyncSearchHelper(connection, 1376 messageID, resultListener, getIntermediateResponseListener()); 1377 connection.registerResponseAcceptor(messageID, helper); 1378 asyncRequestID = helper.getAsyncRequestID(); 1379 1380 final long timeout = getResponseTimeoutMillis(connection); 1381 if (timeout > 0L) 1382 { 1383 final Timer timer = connection.getTimer(); 1384 final AsyncTimeoutTimerTask timerTask = 1385 new AsyncTimeoutTimerTask(helper); 1386 timer.schedule(timerTask, timeout); 1387 asyncRequestID.setTimerTask(timerTask); 1388 } 1389 } 1390 1391 1392 // Send the request to the server. 1393 try 1394 { 1395 debugLDAPRequest(this); 1396 connection.getConnectionStatistics().incrementNumSearchRequests(); 1397 connection.sendMessage(message); 1398 return asyncRequestID; 1399 } 1400 catch (LDAPException le) 1401 { 1402 debugException(le); 1403 1404 connection.deregisterResponseAcceptor(messageID); 1405 throw le; 1406 } 1407 } 1408 1409 1410 1411 /** 1412 * Processes this search operation in synchronous mode, in which the same 1413 * thread will send the request and read the response. 1414 * 1415 * @param connection The connection to use to communicate with the directory 1416 * server. 1417 * @param depth The current referral depth for this request. It should 1418 * always be one for the initial request, and should only 1419 * be incremented when following referrals. 1420 * @param allowRetry Indicates whether the request may be re-tried on a 1421 * re-established connection if the initial attempt fails 1422 * in a way that indicates the connection is no longer 1423 * valid and autoReconnect is true. 1424 * 1425 * @return An LDAP result object that provides information about the result 1426 * of the search processing. 1427 * 1428 * @throws LDAPException If a problem occurs while sending the request or 1429 * reading the response. 1430 */ 1431 private SearchResult processSync(final LDAPConnection connection, 1432 final int depth, final boolean allowRetry) 1433 throws LDAPException 1434 { 1435 // Create the LDAP message. 1436 messageID = connection.nextMessageID(); 1437 final LDAPMessage message = 1438 new LDAPMessage(messageID, this, getControls()); 1439 1440 1441 // Set the appropriate timeout on the socket. 1442 final long responseTimeout = getResponseTimeoutMillis(connection); 1443 try 1444 { 1445 connection.getConnectionInternals(true).getSocket().setSoTimeout( 1446 (int) responseTimeout); 1447 } 1448 catch (Exception e) 1449 { 1450 debugException(e); 1451 } 1452 1453 1454 // Send the request to the server. 1455 final long requestTime = System.nanoTime(); 1456 debugLDAPRequest(this); 1457 connection.getConnectionStatistics().incrementNumSearchRequests(); 1458 try 1459 { 1460 connection.sendMessage(message); 1461 } 1462 catch (final LDAPException le) 1463 { 1464 debugException(le); 1465 1466 if (allowRetry) 1467 { 1468 final SearchResult retryResult = reconnectAndRetry(connection, depth, 1469 le.getResultCode(), 0, 0); 1470 if (retryResult != null) 1471 { 1472 return retryResult; 1473 } 1474 } 1475 1476 throw le; 1477 } 1478 1479 final ArrayList<SearchResultEntry> entryList; 1480 final ArrayList<SearchResultReference> referenceList; 1481 if (searchResultListener == null) 1482 { 1483 entryList = new ArrayList<SearchResultEntry>(5); 1484 referenceList = new ArrayList<SearchResultReference>(5); 1485 } 1486 else 1487 { 1488 entryList = null; 1489 referenceList = null; 1490 } 1491 1492 int numEntries = 0; 1493 int numReferences = 0; 1494 ResultCode intermediateResultCode = ResultCode.SUCCESS; 1495 while (true) 1496 { 1497 final LDAPResponse response; 1498 try 1499 { 1500 response = connection.readResponse(messageID); 1501 } 1502 catch (final LDAPException le) 1503 { 1504 debugException(le); 1505 1506 if ((le.getResultCode() == ResultCode.TIMEOUT) && 1507 connection.getConnectionOptions().abandonOnTimeout()) 1508 { 1509 connection.abandon(messageID); 1510 } 1511 1512 if (allowRetry) 1513 { 1514 final SearchResult retryResult = reconnectAndRetry(connection, depth, 1515 le.getResultCode(), numEntries, numReferences); 1516 if (retryResult != null) 1517 { 1518 return retryResult; 1519 } 1520 } 1521 1522 throw le; 1523 } 1524 1525 if (response == null) 1526 { 1527 if (connection.getConnectionOptions().abandonOnTimeout()) 1528 { 1529 connection.abandon(messageID); 1530 } 1531 1532 throw new LDAPException(ResultCode.TIMEOUT, 1533 ERR_SEARCH_CLIENT_TIMEOUT.get(responseTimeout, messageID, baseDN, 1534 scope.getName(), filter.toString(), 1535 connection.getHostPort())); 1536 } 1537 else if (response instanceof ConnectionClosedResponse) 1538 { 1539 1540 if (allowRetry) 1541 { 1542 final SearchResult retryResult = reconnectAndRetry(connection, depth, 1543 ResultCode.SERVER_DOWN, numEntries, numReferences); 1544 if (retryResult != null) 1545 { 1546 return retryResult; 1547 } 1548 } 1549 1550 final ConnectionClosedResponse ccr = 1551 (ConnectionClosedResponse) response; 1552 final String msg = ccr.getMessage(); 1553 if (msg == null) 1554 { 1555 // The connection was closed while waiting for the response. 1556 final SearchResult searchResult = 1557 new SearchResult(messageID, ccr.getResultCode(), 1558 ERR_CONN_CLOSED_WAITING_FOR_SEARCH_RESPONSE.get( 1559 connection.getHostPort(), toString()), 1560 null, null, entryList, referenceList, numEntries, 1561 numReferences, null); 1562 throw new LDAPSearchException(searchResult); 1563 } 1564 else 1565 { 1566 // The connection was closed while waiting for the response. 1567 final SearchResult searchResult = 1568 new SearchResult(messageID, ccr.getResultCode(), 1569 ERR_CONN_CLOSED_WAITING_FOR_SEARCH_RESPONSE_WITH_MESSAGE. 1570 get(connection.getHostPort(), toString(), msg), 1571 null, null, entryList, referenceList, numEntries, 1572 numReferences, null); 1573 throw new LDAPSearchException(searchResult); 1574 } 1575 } 1576 else if (response instanceof IntermediateResponse) 1577 { 1578 final IntermediateResponseListener listener = 1579 getIntermediateResponseListener(); 1580 if (listener != null) 1581 { 1582 listener.intermediateResponseReturned( 1583 (IntermediateResponse) response); 1584 } 1585 } 1586 else if (response instanceof SearchResultEntry) 1587 { 1588 final SearchResultEntry searchEntry = (SearchResultEntry) response; 1589 numEntries++; 1590 if (searchResultListener == null) 1591 { 1592 entryList.add(searchEntry); 1593 } 1594 else 1595 { 1596 searchResultListener.searchEntryReturned(searchEntry); 1597 } 1598 } 1599 else if (response instanceof SearchResultReference) 1600 { 1601 final SearchResultReference searchReference = 1602 (SearchResultReference) response; 1603 if (followReferrals(connection)) 1604 { 1605 final LDAPResult result = followSearchReference(messageID, 1606 searchReference, connection, depth); 1607 if (! result.getResultCode().equals(ResultCode.SUCCESS)) 1608 { 1609 // We couldn't follow the reference. We don't want to fail the 1610 // entire search because of this right now, so treat it as if 1611 // referral following had not been enabled. Also, set the 1612 // intermediate result code to match that of the result. 1613 numReferences++; 1614 if (searchResultListener == null) 1615 { 1616 referenceList.add(searchReference); 1617 } 1618 else 1619 { 1620 searchResultListener.searchReferenceReturned(searchReference); 1621 } 1622 1623 if (intermediateResultCode.equals(ResultCode.SUCCESS)) 1624 { 1625 intermediateResultCode = result.getResultCode(); 1626 } 1627 } 1628 else if (result instanceof SearchResult) 1629 { 1630 final SearchResult searchResult = (SearchResult) result; 1631 numEntries += searchResult.getEntryCount(); 1632 if (searchResultListener == null) 1633 { 1634 entryList.addAll(searchResult.getSearchEntries()); 1635 } 1636 } 1637 } 1638 else 1639 { 1640 numReferences++; 1641 if (searchResultListener == null) 1642 { 1643 referenceList.add(searchReference); 1644 } 1645 else 1646 { 1647 searchResultListener.searchReferenceReturned(searchReference); 1648 } 1649 } 1650 } 1651 else 1652 { 1653 final SearchResult result = (SearchResult) response; 1654 if (allowRetry) 1655 { 1656 final SearchResult retryResult = reconnectAndRetry(connection, 1657 depth, result.getResultCode(), numEntries, numReferences); 1658 if (retryResult != null) 1659 { 1660 return retryResult; 1661 } 1662 } 1663 1664 return handleResponse(connection, response, requestTime, depth, 1665 numEntries, numReferences, entryList, 1666 referenceList, intermediateResultCode); 1667 } 1668 } 1669 } 1670 1671 1672 1673 /** 1674 * Attempts to re-establish the connection and retry processing this request 1675 * on it. 1676 * 1677 * @param connection The connection to be re-established. 1678 * @param depth The current referral depth for this request. It 1679 * should always be one for the initial request, and 1680 * should only be incremented when following referrals. 1681 * @param resultCode The result code for the previous operation attempt. 1682 * @param numEntries The number of search result entries already sent for 1683 * the search operation. 1684 * @param numReferences The number of search result references already sent 1685 * for the search operation. 1686 * 1687 * @return The result from re-trying the search, or {@code null} if it could 1688 * not be re-tried. 1689 */ 1690 private SearchResult reconnectAndRetry(final LDAPConnection connection, 1691 final int depth, 1692 final ResultCode resultCode, 1693 final int numEntries, 1694 final int numReferences) 1695 { 1696 try 1697 { 1698 // We will only want to retry for certain result codes that indicate a 1699 // connection problem. 1700 switch (resultCode.intValue()) 1701 { 1702 case ResultCode.SERVER_DOWN_INT_VALUE: 1703 case ResultCode.DECODING_ERROR_INT_VALUE: 1704 case ResultCode.CONNECT_ERROR_INT_VALUE: 1705 // We want to try to re-establish the connection no matter what, but 1706 // we only want to retry the search if we haven't yet sent any 1707 // results. 1708 connection.reconnect(); 1709 if ((numEntries == 0) && (numReferences == 0)) 1710 { 1711 return processSync(connection, depth, false); 1712 } 1713 break; 1714 } 1715 } 1716 catch (final Exception e) 1717 { 1718 debugException(e); 1719 } 1720 1721 return null; 1722 } 1723 1724 1725 1726 /** 1727 * Performs the necessary processing for handling a response. 1728 * 1729 * @param connection The connection used to read the response. 1730 * @param response The response to be processed. 1731 * @param requestTime The time the request was sent to the 1732 * server. 1733 * @param depth The current referral depth for this 1734 * request. It should always be one for the 1735 * initial request, and should only be 1736 * incremented when following referrals. 1737 * @param numEntries The number of entries received from the 1738 * server. 1739 * @param numReferences The number of references received from 1740 * the server. 1741 * @param entryList The list of search result entries received 1742 * from the server, if applicable. 1743 * @param referenceList The list of search result references 1744 * received from the server, if applicable. 1745 * @param intermediateResultCode The intermediate result code so far for the 1746 * search operation. 1747 * 1748 * @return The search result. 1749 * 1750 * @throws LDAPException If a problem occurs. 1751 */ 1752 private SearchResult handleResponse(final LDAPConnection connection, 1753 final LDAPResponse response, final long requestTime, 1754 final int depth, final int numEntries, final int numReferences, 1755 final List<SearchResultEntry> entryList, 1756 final List<SearchResultReference> referenceList, 1757 final ResultCode intermediateResultCode) 1758 throws LDAPException 1759 { 1760 connection.getConnectionStatistics().incrementNumSearchResponses( 1761 numEntries, numReferences, 1762 (System.nanoTime() - requestTime)); 1763 SearchResult result = (SearchResult) response; 1764 result.setCounts(numEntries, entryList, numReferences, referenceList); 1765 1766 if ((result.getResultCode().equals(ResultCode.REFERRAL)) && 1767 followReferrals(connection)) 1768 { 1769 if (depth >= 1770 connection.getConnectionOptions().getReferralHopLimit()) 1771 { 1772 return new SearchResult(messageID, 1773 ResultCode.REFERRAL_LIMIT_EXCEEDED, 1774 ERR_TOO_MANY_REFERRALS.get(), 1775 result.getMatchedDN(), 1776 result.getReferralURLs(), entryList, 1777 referenceList, numEntries, 1778 numReferences, 1779 result.getResponseControls()); 1780 } 1781 1782 result = followReferral(result, connection, depth); 1783 } 1784 1785 if ((result.getResultCode().equals(ResultCode.SUCCESS)) && 1786 (! intermediateResultCode.equals(ResultCode.SUCCESS))) 1787 { 1788 return new SearchResult(messageID, intermediateResultCode, 1789 result.getDiagnosticMessage(), 1790 result.getMatchedDN(), 1791 result.getReferralURLs(), 1792 entryList, referenceList, numEntries, 1793 numReferences, 1794 result.getResponseControls()); 1795 } 1796 1797 return result; 1798 } 1799 1800 1801 1802 /** 1803 * Attempts to follow a search result reference to continue a search in a 1804 * remote server. 1805 * 1806 * @param messageID The message ID for the LDAP message that is 1807 * associated with this result. 1808 * @param searchReference The search result reference to follow. 1809 * @param connection The connection on which the reference was 1810 * received. 1811 * @param depth The number of referrals followed in the course of 1812 * processing this request. 1813 * 1814 * @return The result of attempting to follow the search result reference. 1815 * 1816 * @throws LDAPException If a problem occurs while attempting to establish 1817 * the referral connection, sending the request, or 1818 * reading the result. 1819 */ 1820 private LDAPResult followSearchReference(final int messageID, 1821 final SearchResultReference searchReference, 1822 final LDAPConnection connection, final int depth) 1823 throws LDAPException 1824 { 1825 for (final String urlString : searchReference.getReferralURLs()) 1826 { 1827 try 1828 { 1829 final LDAPURL referralURL = new LDAPURL(urlString); 1830 final String host = referralURL.getHost(); 1831 1832 if (host == null) 1833 { 1834 // We can't handle a referral in which there is no host. 1835 continue; 1836 } 1837 1838 final String requestBaseDN; 1839 if (referralURL.baseDNProvided()) 1840 { 1841 requestBaseDN = referralURL.getBaseDN().toString(); 1842 } 1843 else 1844 { 1845 requestBaseDN = baseDN; 1846 } 1847 1848 final SearchScope requestScope; 1849 if (referralURL.scopeProvided()) 1850 { 1851 requestScope = referralURL.getScope(); 1852 } 1853 else 1854 { 1855 requestScope = scope; 1856 } 1857 1858 final Filter requestFilter; 1859 if (referralURL.filterProvided()) 1860 { 1861 requestFilter = referralURL.getFilter(); 1862 } 1863 else 1864 { 1865 requestFilter = filter; 1866 } 1867 1868 1869 final SearchRequest searchRequest = 1870 new SearchRequest(searchResultListener, getControls(), 1871 requestBaseDN, requestScope, derefPolicy, 1872 sizeLimit, timeLimit, typesOnly, requestFilter, 1873 attributes); 1874 1875 final LDAPConnection referralConn = connection.getReferralConnector(). 1876 getReferralConnection(referralURL, connection); 1877 1878 try 1879 { 1880 return searchRequest.process(referralConn, depth+1); 1881 } 1882 finally 1883 { 1884 referralConn.setDisconnectInfo(DisconnectType.REFERRAL, null, null); 1885 referralConn.close(); 1886 } 1887 } 1888 catch (LDAPException le) 1889 { 1890 debugException(le); 1891 1892 if (le.getResultCode().equals(ResultCode.REFERRAL_LIMIT_EXCEEDED)) 1893 { 1894 throw le; 1895 } 1896 } 1897 } 1898 1899 // If we've gotten here, then we could not follow any of the referral URLs, 1900 // so we'll create a failure result. 1901 return new SearchResult(messageID, ResultCode.REFERRAL, null, null, 1902 searchReference.getReferralURLs(), 0, 0, null); 1903 } 1904 1905 1906 1907 /** 1908 * Attempts to follow a referral to perform an add operation in the target 1909 * server. 1910 * 1911 * @param referralResult The LDAP result object containing information about 1912 * the referral to follow. 1913 * @param connection The connection on which the referral was received. 1914 * @param depth The number of referrals followed in the course of 1915 * processing this request. 1916 * 1917 * @return The result of attempting to process the add operation by following 1918 * the referral. 1919 * 1920 * @throws LDAPException If a problem occurs while attempting to establish 1921 * the referral connection, sending the request, or 1922 * reading the result. 1923 */ 1924 private SearchResult followReferral(final SearchResult referralResult, 1925 final LDAPConnection connection, 1926 final int depth) 1927 throws LDAPException 1928 { 1929 for (final String urlString : referralResult.getReferralURLs()) 1930 { 1931 try 1932 { 1933 final LDAPURL referralURL = new LDAPURL(urlString); 1934 final String host = referralURL.getHost(); 1935 1936 if (host == null) 1937 { 1938 // We can't handle a referral in which there is no host. 1939 continue; 1940 } 1941 1942 final String requestBaseDN; 1943 if (referralURL.baseDNProvided()) 1944 { 1945 requestBaseDN = referralURL.getBaseDN().toString(); 1946 } 1947 else 1948 { 1949 requestBaseDN = baseDN; 1950 } 1951 1952 final SearchScope requestScope; 1953 if (referralURL.scopeProvided()) 1954 { 1955 requestScope = referralURL.getScope(); 1956 } 1957 else 1958 { 1959 requestScope = scope; 1960 } 1961 1962 final Filter requestFilter; 1963 if (referralURL.filterProvided()) 1964 { 1965 requestFilter = referralURL.getFilter(); 1966 } 1967 else 1968 { 1969 requestFilter = filter; 1970 } 1971 1972 1973 final SearchRequest searchRequest = 1974 new SearchRequest(searchResultListener, getControls(), 1975 requestBaseDN, requestScope, derefPolicy, 1976 sizeLimit, timeLimit, typesOnly, requestFilter, 1977 attributes); 1978 1979 final LDAPConnection referralConn = connection.getReferralConnector(). 1980 getReferralConnection(referralURL, connection); 1981 try 1982 { 1983 return searchRequest.process(referralConn, depth+1); 1984 } 1985 finally 1986 { 1987 referralConn.setDisconnectInfo(DisconnectType.REFERRAL, null, null); 1988 referralConn.close(); 1989 } 1990 } 1991 catch (LDAPException le) 1992 { 1993 debugException(le); 1994 1995 if (le.getResultCode().equals(ResultCode.REFERRAL_LIMIT_EXCEEDED)) 1996 { 1997 throw le; 1998 } 1999 } 2000 } 2001 2002 // If we've gotten here, then we could not follow any of the referral URLs, 2003 // so we'll just return the original referral result. 2004 return referralResult; 2005 } 2006 2007 2008 2009 /** 2010 * {@inheritDoc} 2011 */ 2012 @InternalUseOnly() 2013 public void responseReceived(final LDAPResponse response) 2014 throws LDAPException 2015 { 2016 try 2017 { 2018 responseQueue.put(response); 2019 } 2020 catch (Exception e) 2021 { 2022 debugException(e); 2023 throw new LDAPException(ResultCode.LOCAL_ERROR, 2024 ERR_EXCEPTION_HANDLING_RESPONSE.get(getExceptionMessage(e)), e); 2025 } 2026 } 2027 2028 2029 2030 /** 2031 * {@inheritDoc} 2032 */ 2033 @Override() 2034 public int getLastMessageID() 2035 { 2036 return messageID; 2037 } 2038 2039 2040 2041 /** 2042 * {@inheritDoc} 2043 */ 2044 @Override() 2045 public OperationType getOperationType() 2046 { 2047 return OperationType.SEARCH; 2048 } 2049 2050 2051 2052 /** 2053 * {@inheritDoc} 2054 */ 2055 public SearchRequest duplicate() 2056 { 2057 return duplicate(getControls()); 2058 } 2059 2060 2061 2062 /** 2063 * {@inheritDoc} 2064 */ 2065 public SearchRequest duplicate(final Control[] controls) 2066 { 2067 final SearchRequest r = new SearchRequest(searchResultListener, controls, 2068 baseDN, scope, derefPolicy, sizeLimit, timeLimit, typesOnly, filter, 2069 attributes); 2070 if (followReferralsInternal() != null) 2071 { 2072 r.setFollowReferrals(followReferralsInternal()); 2073 } 2074 2075 r.setResponseTimeoutMillis(getResponseTimeoutMillis(null)); 2076 2077 return r; 2078 } 2079 2080 2081 2082 /** 2083 * {@inheritDoc} 2084 */ 2085 @Override() 2086 public void toString(final StringBuilder buffer) 2087 { 2088 buffer.append("SearchRequest(baseDN='"); 2089 buffer.append(baseDN); 2090 buffer.append("', scope="); 2091 buffer.append(scope); 2092 buffer.append(", deref="); 2093 buffer.append(derefPolicy); 2094 buffer.append(", sizeLimit="); 2095 buffer.append(sizeLimit); 2096 buffer.append(", timeLimit="); 2097 buffer.append(timeLimit); 2098 buffer.append(", filter='"); 2099 buffer.append(filter); 2100 buffer.append("', attrs={"); 2101 2102 for (int i=0; i < attributes.length; i++) 2103 { 2104 if (i > 0) 2105 { 2106 buffer.append(", "); 2107 } 2108 2109 buffer.append(attributes[i]); 2110 } 2111 buffer.append('}'); 2112 2113 final Control[] controls = getControls(); 2114 if (controls.length > 0) 2115 { 2116 buffer.append(", controls={"); 2117 for (int i=0; i < controls.length; i++) 2118 { 2119 if (i > 0) 2120 { 2121 buffer.append(", "); 2122 } 2123 2124 buffer.append(controls[i]); 2125 } 2126 buffer.append('}'); 2127 } 2128 2129 buffer.append(')'); 2130 } 2131}