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The UnboundID LDAP SDK for Java is a fast, comprehensive, and easy-to-use
Java API for communicating with LDAP directory servers and performing
related tasks like reading and writing LDIF, encoding and decoding data
using base64 and ASN.1 BER, and performing secure communication. This
package contains the Standard Edition of the LDAP SDK, which is a
complete, general-purpose library for communicating with LDAPv3 directory
servers.
/*
* Copyright 2021 Ping Identity Corporation
* All Rights Reserved.
*/
/*
* Copyright 2021 Ping Identity Corporation
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/*
* Copyright (C) 2021 Ping Identity Corporation
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License (GPLv2 only)
* or the terms of the GNU Lesser General Public License (LGPLv2.1 only)
* as published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, see .
*/
package com.unboundid.ldap.sdk.unboundidds.controls;
import java.io.Serializable;
import com.unboundid.util.Mutable;
import com.unboundid.util.NotNull;
import com.unboundid.util.Nullable;
import com.unboundid.util.ThreadSafety;
import com.unboundid.util.ThreadSafetyLevel;
import com.unboundid.util.Validator;
/**
* This class provides a set of properties that can be used in conjunction with
* the {@link MatchingEntryCountRequestControl}.
*
*
* NOTE: This class, and other classes within the
* {@code com.unboundid.ldap.sdk.unboundidds} package structure, are only
* supported for use against Ping Identity, UnboundID, and
* Nokia/Alcatel-Lucent 8661 server products. These classes provide support
* for proprietary functionality or for external specifications that are not
* considered stable or mature enough to be guaranteed to work in an
* interoperable way with other types of LDAP servers.
*
*/
@Mutable()
@ThreadSafety(level=ThreadSafetyLevel.NOT_THREADSAFE)
public final class MatchingEntryCountRequestControlProperties
implements Serializable
{
/**
* The serial version UID for this serializable class.
*/
private static final long serialVersionUID = -7231704969312951204L;
// Indicates whether the server should internally retrieve and examine
// candidate entries to determine whether they would actually be returned to
// the client.
private boolean alwaysExamineCandidates;
// Indicates whether to include debug information in the response control.
private boolean includeDebugInfo;
// Indicates whether to include extended information in the response.
private boolean includeExtendedResponseData;
// Indicates whether the server should attempt to actually iterate through the
// entries in the backend in order to obtain the count if the search criteria
// is not indexed.
private boolean processSearchIfUnindexed;
// Indicates whether the server should skip retrieving the entry ID set for
// an exploded index key if the number of matching entries is known.
private boolean skipResolvingExplodedIndexes;
// The maximum number of candidate entries that should be examined if it is
// not possible to obtain an exact count using only information contained in
// the server indexes.
private int maxCandidatesToExamine;
// The short-circuit threshold that the server will use when evaluating filter
// components that are not categorized as fast.
@Nullable private Long slowShortCircuitThreshold;
// The short-circuit threshold that the server will for index processing that
// should be very fast.
@Nullable private Long fastShortCircuitThreshold;
/**
* Creates a new matching entry count request control properties object with
* the default settings.
*/
public MatchingEntryCountRequestControlProperties()
{
maxCandidatesToExamine = 0;
alwaysExamineCandidates = false;
processSearchIfUnindexed = false;
skipResolvingExplodedIndexes = false;
fastShortCircuitThreshold = null;
slowShortCircuitThreshold = null;
includeExtendedResponseData = false;
includeDebugInfo = false;
}
/**
* Creates a new matching entry count request control properties object that
* is a copy of the provided properties.
*
* @param properties The properties to use to create the new set of
* properties.
*/
public MatchingEntryCountRequestControlProperties(
@NotNull final MatchingEntryCountRequestControlProperties properties)
{
maxCandidatesToExamine = properties.getMaxCandidatesToExamine();
alwaysExamineCandidates = properties.alwaysExamineCandidates();
processSearchIfUnindexed = properties.processSearchIfUnindexed();
skipResolvingExplodedIndexes = properties.skipResolvingExplodedIndexes();
fastShortCircuitThreshold = properties.getFastShortCircuitThreshold();
slowShortCircuitThreshold = properties.getSlowShortCircuitThreshold();
includeExtendedResponseData = properties.includeExtendedResponseData();
includeDebugInfo = properties.includeDebugInfo();
}
/**
* Creates a new matching entry count request control properties object with
* the settings used for the provided control.
*
* @param control The matching entry count request control to use to
* initialize this set of properties.
*/
public MatchingEntryCountRequestControlProperties(
@NotNull final MatchingEntryCountRequestControl control)
{
maxCandidatesToExamine = control.getMaxCandidatesToExamine();
alwaysExamineCandidates = control.alwaysExamineCandidates();
processSearchIfUnindexed = control.processSearchIfUnindexed();
skipResolvingExplodedIndexes = control.skipResolvingExplodedIndexes();
fastShortCircuitThreshold = control.getFastShortCircuitThreshold();
slowShortCircuitThreshold = control.getSlowShortCircuitThreshold();
includeExtendedResponseData = control.includeExtendedResponseData();
includeDebugInfo = control.includeDebugInfo();
}
/**
* Retrieves the maximum number of candidate entries that should be examined
* in order to determine accurate count of the number of matching entries.
*
* For a fully-indexed search, this property will only be used if
* {@link #alwaysExamineCandidates} is true. If the number of candidate
* entries identified is less than the maximum number of candidates to
* examine, then the server will return an {@code EXAMINED_COUNT} result that
* indicates the number of entries matching the criteria that would actually
* be returned in a normal search with the same criteria. If the number of
* candidate entries exceeds the maximum number of candidates to examine, then
* the server will return an {@code UNEXAMINED_COUNT} result that indicates
* the number of entries matching the search criteria but that may include
* entries that would not actually be returned to the client.
*
* For a partially-indexed search, if the upper bound on the number of
* candidates is less than or equal to the maximum number of candidates to
* examine, then the server will internally retrieve and examine each of those
* candidates to determine which of them match the search criteria and would
* actually be returned to the client, and will then return an
* {@code EXAMINED_COUNT} result with that count. If the upper bound on the
* number of candidates is greater than the maximum number of candidates to
* examine, then the server will return an {@code UPPER_BOUND} result to
* indicate that the exact count is not known but an upper bound is available.
*
* @return The maximum number of candidate entries to examine in order to
* determine an accurate count of the number of matching entries.
*/
public int getMaxCandidatesToExamine()
{
return maxCandidatesToExamine;
}
/**
* Specifies the maximum number of candidate entries that should be examined
* in order to determine accurate count of the number of matching entries.
*
* For a fully-indexed search, this property will only be used if
* {@link #alwaysExamineCandidates} is true. If the number of candidate
* entries identified is less than the maximum number of candidates to
* examine, then the server will return an {@code EXAMINED_COUNT} result that
* indicates the number of entries matching the criteria that would actually
* be returned in a normal search with the same criteria. If the number of
* candidate entries exceeds the maximum number of candidates to examine, then
* the server will return an {@code UNEXAMINED_COUNT} result that indicates
* the number of entries matching the search criteria but that may include
* entries that would not actually be returned to the client.
*
* For a partially-indexed search, if the upper bound on the number of
* candidates is less than or equal to the maximum number of candidates to
* examine, then the server will internally retrieve and examine each of those
* candidates to determine which of them match the search criteria and would
* actually be returned to the client, and will then return an
* {@code EXAMINED_COUNT} result with that count. If the upper bound on the
* number of candidates is greater than the maximum number of candidates to
* examine, then the server will return an {@code UPPER_BOUND} result to
* indicate that the exact count is not known but an upper bound is available.
*
* @param maxCandidatesToExamine The maximum number of candidate entries
* that the server should retrieve and examine
* to determine whether they actually match
* the search criteria. If the search is
* partially indexed and the total number of
* candidate entries is less than or equal to
* this value, then these candidate entries
* will be examined to determine which of them
* match the search criteria so that an
* accurate count can be determined. If the
* search is fully indexed such that the all
* candidate entries are known to match the
* search criteria, then the server may still
* examine each of these entries if the number
* of candidates is less than
* {@code maxCandidatesToExamine} and
* {@code alwaysExamineCandidates} is
* {@code true} in order to allow the entry
* count that is returned to be restricted to
* only those entries that would actually be
* returned to the client. This will be
* ignored for searches that are completely
* unindexed.
*
* The value for this argument must be greater
* than or equal to zero. If it is zero, then
* the server will not examine any entries, so
* a partially-indexed search will only be
* able to return a count that is an upper
* bound, and a fully-indexed search will only
* be able to return an unexamined exact
* count. If there should be no bound on the
* number of entries to retrieve, then a value
* of {@code Integer.MAX_VALUE} may be
* specified.
*/
public void setMaxCandidatesToExamine(final int maxCandidatesToExamine)
{
Validator.ensureTrue((maxCandidatesToExamine >= 0),
"MatchingEntryCountRequestControlProperties.maxCandidatesToExamine " +
"must be greater than or equal to zero.");
this.maxCandidatesToExamine = maxCandidatesToExamine;
}
/**
* Indicates whether the server should always examine candidate entries in
* fully-indexed searches to determine whether they would actually be returned
* to the client in a normal search with the same criteria.
*
* @return {@code true} if the server should attempt to internally retrieve
* and examine matching entries to determine whether they would
* normally be returned to the client (e.g., that the client has
* permission to access the entry and that it is not a
* normally-hidden entry like an LDAP subentry, a replication
* conflict entry, or a soft-deleted entry), or {@code false} if the
* server should return an unverified count.
*/
public boolean alwaysExamineCandidates()
{
return alwaysExamineCandidates;
}
/**
*Specifies whether the server should always examine candidate entries in
* fully-indexed searches to determine whether they would actually be returned
* to the client in a normal search with the same criteria.
*
* @param alwaysExamineCandidates Indicates whether the server should always
* examine candidate entries to determine
* whether they would actually be returned to
* the client in a normal search. This will
* only be used for fully-indexed searches in
* which the set of matching entries is known.
* If the value is {@code true} and the number
* of candidates is smaller than
* {@code maxCandidatesToExamine}, then each
* matching entry will be internally retrieved
* and examined to determine whether it would
* be returned to the client based on the
* details of the search request (e.g.,
* whether the requester has permission to
* access the entry, whether it's an LDAP
* subentry, replication conflict entry,
* soft-deleted entry, or other type of entry
* that is normally hidden, etc.) so that an
* exact count can be returned. If this is
* {@code false} or the number of candidates
* exceeds {@code maxCandidatesToExamine},
* then the server will only be able to return
* an unexamined count which may include
* entries that match the search criteria but
* that would not normally be returned to the
* requester.
*/
public void setAlwaysExamineCandidates(final boolean alwaysExamineCandidates)
{
this.alwaysExamineCandidates = alwaysExamineCandidates;
}
/**
* Indicates whether the server should internally retrieve and examine all
* entries within the search scope in order to obtain an exact matching entry
* count for an unindexed search. Note that this value will not be considered
* for completely-indexed or partially-indexed searches, nor for searches in
* which matching entries should be returned.
*
* @return {@code true} if the server should internally retrieve and examine
* all entries within the search scope in order to obtain an exact
* matching entry count for an unindexed search, or {@code false} if
* not.
*/
public boolean processSearchIfUnindexed()
{
return processSearchIfUnindexed;
}
/**
* Specifies whether the server should internally retrieve and examine all
* entries within the search scope in order to obtain an exact matching entry
* count for an unindexed search. Note that this value will not be considered
* for completely-indexed or partially-indexed searches, nor for searches in
* which matching entries should be returned.
*
* @param processSearchIfUnindexed Indicates whether the server should
* attempt to determine the number of
* matching entries if the search criteria
* is completely unindexed. If this is
* {@code true} and the requester has the
* unindexed-search privilege, then the
* server will iterate through all entries
* in the scope (which may take a very long
* time to complete) in order to to
* determine which of them match the search
* criteria so that it can return an
* accurate count. If this is
* {@code false} or the requester does not
* have the unindexed-search privilege, then
* the server will not spend any time
* attempting to determine the number of
* matching entries and will instead return
* a matching entry count response control
* indicating that the entry count is
* unknown.
*/
public void setProcessSearchIfUnindexed(
final boolean processSearchIfUnindexed)
{
this.processSearchIfUnindexed = processSearchIfUnindexed;
}
/**
* Indicates whether the server should skip the effort of actually retrieving
* the candidate entry IDs for exploded index keys in which the number of
* matching entries is known. Skipping the process of accessing an exploded
* index can allow the server to more quickly arrive at the matching entry
* count estimate, but that estimate may be less accurate than if it had
* actually retrieved those candidates.
*
* @return {@code true} if the server should skip the effort of actually
* retrieving the candidate entry IDs for exploded index keys in
* which the number of matching entries is known, or {@code false} if
* it may retrieve candidates from an exploded index in the course of
* determining the matching entry count.
*/
public boolean skipResolvingExplodedIndexes()
{
return skipResolvingExplodedIndexes;
}
/**
* Specifies whether the server should skip the effort of actually retrieving
* the candidate entry IDs for exploded index keys in which the number of
* matching entries is known. Skipping the process of accessing an exploded
* index can allow the server to more quickly arrive at the matching entry
* count estimate, but that estimate may be less accurate than if it had
* actually retrieved those candidates.
*
* @param skipResolvingExplodedIndexes Indicates whether the server should
* skip the effort of actually
* retrieving the candidate entry IDs
* for exploded index keys in which the
* number of matching entries is known.
*/
public void setSkipResolvingExplodedIndexes(
final boolean skipResolvingExplodedIndexes)
{
this.skipResolvingExplodedIndexes = skipResolvingExplodedIndexes;
}
/**
* Retrieves the short-circuit threshold that the server should use when
* determining whether to continue with index processing in an attempt to
* further pare down a candidate set that already has a defined superset of
* the entries that actually match the filter. If the number of entries in
* that candidate set is less than or equal to the short-circuit threshold,
* then the server may simply use that candidate set in the course of
* determining the matching entry count, even if there may be additional
* processing that can be performed (e.g., further filter components to
* evaluate) that may allow the server to pare down the results even further.
* Short-circuiting may allow the server to obtain the matching entry count
* estimate faster, but may also cause the resulting estimate to be less
* accurate.
*
* The value returned by this method will be used for cases in which the
* server is performing the fastest types of index processing. For example,
* this may include evaluating presence, equality, or approximate match
* components, which should only require retrieving a single index key to
* obtain the candidate set.
*
* @return The short-circuit threshold that should be used for fast index
* processing, zero if the server should not short-circuit at all
* during fast index processing, or {@code null} if the server should
* determine the appropriate fast short-circuit threshold to use.
*/
@Nullable()
public Long getFastShortCircuitThreshold()
{
return fastShortCircuitThreshold;
}
/**
* Specifies the short-circuit threshold that the server should use when
* determining whether to continue with index processing in an attempt to
* further pare down a candidate set that already has a defined superset of
* entries that actually match the filter. Short-circuiting may allow the
* server to skip potentially-costly index processing and allow it to obtain
* the matching entry count estimate faster, but the resulting estimate may be
* less accurate. The fast short-circuit threshold will be used for index
* processing that is expected to be very fast (e.g., when performing index
* lookups for presence, equality, and approximate-match components, which
* should only require accessing a single index key).
*
* @param fastShortCircuitThreshold The short-circuit threshold that the
* server should use when determining
* whether to continue with index
* processing in an attempt to further pare
* down a candidate set that already has a
* defined superset of the entries that
* actually match the filter. A value that
* is less than or equal to zero indicates
* that the server should never short
* circuit when performing fast index
* processing. A value of {@code null}
* indicates that the server should
* determine the appropriate fast
* short-circuit threshold to use.
*/
public void setFastShortCircuitThreshold(
@Nullable final Long fastShortCircuitThreshold)
{
if ((fastShortCircuitThreshold == null) || (fastShortCircuitThreshold >= 0))
{
this.fastShortCircuitThreshold = fastShortCircuitThreshold;
}
else
{
this.fastShortCircuitThreshold = 0L;
}
}
/**
* Retrieves the short-circuit threshold that the server should use when
* determining whether to continue with index processing for evaluation that
* may be more expensive than what falls into the "fast" category (e.g.,
* substring and range filter components).
*
* @return The short-circuit threshold that the server should use when
* determining whether to continue with index processing for
* evaluation that may be more expensive than what falls into the
* "fast" category, zero if the server should never short circuit
* when performing slow index processing, or {@code null} if the
* server should determine the appropriate slow short-circuit
* threshold to use.
*/
@Nullable()
public Long getSlowShortCircuitThreshold()
{
return slowShortCircuitThreshold;
}
/**
* Specifies the short-circuit threshold that the server should use when
* determining whether to continue with index processing for evaluation that
* may be more expensive than what falls into the "fast" category (e.g.,
* substring and range filter components).
*
* @param slowShortCircuitThreshold
* The short-circuit threshold that the server should use when
* determining whether to continue with index processing for
* evaluation that may be more expensive than what falls into the
* "fast" category. A value that is less than or equal to zero
* indicates that the server should never short circuit when
* performing slow index processing. A value of {@code null}
* indicates that the server should determine the appropriate
* slow short-circuit threshold to use.
*/
public void setSlowShortCircuitThreshold(
@Nullable final Long slowShortCircuitThreshold)
{
if ((slowShortCircuitThreshold == null) || (slowShortCircuitThreshold >= 0))
{
this.slowShortCircuitThreshold = slowShortCircuitThreshold;
}
else
{
this.slowShortCircuitThreshold = 0L;
}
}
/**
* Indicates whether the server may include extended response data in the
* corresponding response control, which may provide information like whether
* all of the identified candidate entries are within the scope of the search
* and any unindexed or unevaluated portion of the search filter.
*
* @return {@code true} if the server may include extended response data
* in the corresponding response control, or {@code false} if not.
*/
public boolean includeExtendedResponseData()
{
return includeExtendedResponseData;
}
/**
* Indicates whether the server may include extended response data in the
* corresponding response control, which may provide information like whether
* all of the identified candidate entries are within the scope of the search
* and any unindexed or unevaluated portion of the search filter.
*
* Note that before setting this to {@code true}, the client should first
* verify that the server supports this functionality by checking to see if
* {@link com.unboundid.ldap.sdk.RootDSE#supportsFeature} returns {@code true}
* for {@link
* MatchingEntryCountRequestControl#EXTENDED_RESPONSE_DATA_FEATURE_OID}.
* Setting this value to {@code true} for servers that do not support this
* feature may cause the server to reject the request.
*
* @param includeExtendedResponseData Indicates whether the server may
* include extended response data in the
* corresponding response control.
*/
public void setIncludeExtendedResponseData(
final boolean includeExtendedResponseData)
{
this.includeExtendedResponseData = includeExtendedResponseData;
}
/**
* Indicates whether the server should include debug information in the
* response control that provides additional information about how the server
* arrived at the result. If debug information is to be provided, it will be
* in a human-readable rather than machine-parsable form.
*
* @return {@code true} if the server should include debug information in
* the response control, or {@code false} if not.
*/
public boolean includeDebugInfo()
{
return includeDebugInfo;
}
/**
* Specifies whether the server should include debug information in the
* response control that provides additional information about how the server
* arrived at the result.
*
* @param includeDebugInfo Indicates whether the server should include debug
* information in the response control that provides
* additional information about how the server
* arrived at the result.
*/
public void setIncludeDebugInfo(final boolean includeDebugInfo)
{
this.includeDebugInfo = includeDebugInfo;
}
/**
* Retrieves a string representation of the matching entry count request
* control properties.
*
* @return A string representation of the matching entry count request
* control properties.
*/
@Override()
@NotNull()
public String toString()
{
final StringBuilder buffer = new StringBuilder();
toString(buffer);
return buffer.toString();
}
/**
* Appends a string representation of the matching entry count request control
* properties to the provided buffer.
*
* @param buffer The buffer to which the information should be appended. It
* must not be {@code null}.
*/
public void toString(@NotNull final StringBuilder buffer)
{
buffer.append("MatchingEntryCountRequestControlProperties(" +
"maxCandidatesToExamine=");
buffer.append(maxCandidatesToExamine);
buffer.append(", alwaysExamineCandidates=");
buffer.append(alwaysExamineCandidates);
buffer.append(", processSearchIfUnindexed=");
buffer.append(processSearchIfUnindexed);
buffer.append(", skipResolvingExplodedIndexes=");
buffer.append(skipResolvingExplodedIndexes);
if (fastShortCircuitThreshold != null)
{
buffer.append(", fastShortCircuitThreshold=");
buffer.append(fastShortCircuitThreshold);
}
if (slowShortCircuitThreshold != null)
{
buffer.append(", slowShortCircuitThreshold=");
buffer.append(slowShortCircuitThreshold);
}
buffer.append(", includeExtendedResponseData=");
buffer.append(includeExtendedResponseData);
buffer.append(", includeDebugInfo=");
buffer.append(includeDebugInfo);
buffer.append(')');
}
}