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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 2008-2018 Ping Identity Corporation
* All Rights Reserved.
*/
/*
* Copyright (C) 2008-2018 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.examples;
import java.io.IOException;
import java.io.OutputStream;
import java.io.Serializable;
import java.text.ParseException;
import java.util.ArrayList;
import java.util.LinkedHashMap;
import java.util.List;
import java.util.Set;
import java.util.concurrent.CyclicBarrier;
import java.util.concurrent.atomic.AtomicBoolean;
import java.util.concurrent.atomic.AtomicLong;
import com.unboundid.ldap.sdk.Control;
import com.unboundid.ldap.sdk.LDAPConnection;
import com.unboundid.ldap.sdk.LDAPConnectionOptions;
import com.unboundid.ldap.sdk.LDAPException;
import com.unboundid.ldap.sdk.ResultCode;
import com.unboundid.ldap.sdk.Version;
import com.unboundid.ldap.sdk.controls.AssertionRequestControl;
import com.unboundid.ldap.sdk.controls.PermissiveModifyRequestControl;
import com.unboundid.ldap.sdk.controls.PostReadRequestControl;
import com.unboundid.ldap.sdk.controls.PreReadRequestControl;
import com.unboundid.util.ColumnFormatter;
import com.unboundid.util.Debug;
import com.unboundid.util.FixedRateBarrier;
import com.unboundid.util.FormattableColumn;
import com.unboundid.util.HorizontalAlignment;
import com.unboundid.util.LDAPCommandLineTool;
import com.unboundid.util.ObjectPair;
import com.unboundid.util.OutputFormat;
import com.unboundid.util.RateAdjustor;
import com.unboundid.util.ResultCodeCounter;
import com.unboundid.util.StaticUtils;
import com.unboundid.util.ThreadSafety;
import com.unboundid.util.ThreadSafetyLevel;
import com.unboundid.util.ValuePattern;
import com.unboundid.util.WakeableSleeper;
import com.unboundid.util.args.ArgumentException;
import com.unboundid.util.args.ArgumentParser;
import com.unboundid.util.args.BooleanArgument;
import com.unboundid.util.args.ControlArgument;
import com.unboundid.util.args.FileArgument;
import com.unboundid.util.args.FilterArgument;
import com.unboundid.util.args.IntegerArgument;
import com.unboundid.util.args.StringArgument;
/**
* This class provides a tool that can be used to perform repeated modifications
* in an LDAP directory server using multiple threads. It can help provide an
* estimate of the modify performance that a directory server is able to
* achieve. The target entry DN may be a value pattern as described in the
* {@link ValuePattern} class. This makes it possible to modify a range of
* entries rather than repeatedly updating the same entry.
*
* Some of the APIs demonstrated by this example include:
*
* - Argument Parsing (from the {@code com.unboundid.util.args}
* package)
* - LDAP Command-Line Tool (from the {@code com.unboundid.util}
* package)
* - LDAP Communication (from the {@code com.unboundid.ldap.sdk}
* package)
* - Value Patterns (from the {@code com.unboundid.util} package)
*
*
* All of the necessary information is provided using command line arguments.
* Supported arguments include those allowed by the {@link LDAPCommandLineTool}
* class, as well as the following additional arguments:
*
* - "-b {entryDN}" or "--targetDN {baseDN}" -- specifies the DN of the
* entry to be modified. This must be provided. It may be a simple DN,
* or it may be a value pattern to express a range of entry DNs.
* - "-A {name}" or "--attribute {name}" -- specifies the name of the
* attribute to modify. Multiple attributes may be modified by providing
* multiple instances of this argument. At least one attribute must be
* provided.
* - "--valuePattern {pattern}" -- specifies the pattern to use to generate
* the value to use for each modification. If this argument is provided,
* then neither the "--valueLength" nor "--characterSet" arguments may be
* given.
* - "-l {num}" or "--valueLength {num}" -- specifies the length in bytes to
* use for the values of the target attributes. If this is not provided,
* then a default length of 10 bytes will be used.
* - "-C {chars}" or "--characterSet {chars}" -- specifies the set of
* characters that will be used to generate the values to use for the
* target attributes. It should only include ASCII characters. Values
* will be generated from randomly-selected characters from this set. If
* this is not provided, then a default set of lowercase alphabetic
* characters will be used.
* - "-t {num}" or "--numThreads {num}" -- specifies the number of
* concurrent threads to use when performing the modifications. If this
* is not provided, then a default of one thread will be used.
* - "-i {sec}" or "--intervalDuration {sec}" -- specifies the length of
* time in seconds between lines out output. If this is not provided,
* then a default interval duration of five seconds will be used.
* - "-I {num}" or "--numIntervals {num}" -- specifies the maximum number of
* intervals for which to run. If this is not provided, then it will
* run forever.
* - "--iterationsBeforeReconnect {num}" -- specifies the number of modify
* iterations that should be performed on a connection before that
* connection is closed and replaced with a newly-established (and
* authenticated, if appropriate) connection.
* - "-r {modifies-per-second}" or "--ratePerSecond {modifies-per-second}"
* -- specifies the target number of modifies to perform per second. It
* is still necessary to specify a sufficient number of threads for
* achieving this rate. If this option is not provided, then the tool
* will run at the maximum rate for the specified number of threads.
* - "--variableRateData {path}" -- specifies the path to a file containing
* information needed to allow the tool to vary the target rate over time.
* If this option is not provided, then the tool will either use a fixed
* target rate as specified by the "--ratePerSecond" argument, or it will
* run at the maximum rate.
* - "--generateSampleRateFile {path}" -- specifies the path to a file to
* which sample data will be written illustrating and describing the
* format of the file expected to be used in conjunction with the
* "--variableRateData" argument.
* - "--warmUpIntervals {num}" -- specifies the number of intervals to
* complete before beginning overall statistics collection.
* - "--timestampFormat {format}" -- specifies the format to use for
* timestamps included before each output line. The format may be one of
* "none" (for no timestamps), "with-date" (to include both the date and
* the time), or "without-date" (to include only time time).
* - "-Y {authzID}" or "--proxyAs {authzID}" -- Use the proxied
* authorization v2 control to request that the operation be processed
* using an alternate authorization identity. In this case, the bind DN
* should be that of a user that has permission to use this control. The
* authorization identity may be a value pattern.
* - "--suppressErrorResultCodes" -- Indicates that information about the
* result codes for failed operations should not be displayed.
* - "-c" or "--csv" -- Generate output in CSV format rather than a
* display-friendly format.
*
*/
@ThreadSafety(level=ThreadSafetyLevel.NOT_THREADSAFE)
public final class ModRate
extends LDAPCommandLineTool
implements Serializable
{
/**
* The serial version UID for this serializable class.
*/
private static final long serialVersionUID = 2709717414202815822L;
// Indicates whether a request has been made to stop running.
private final AtomicBoolean stopRequested;
// The argument used to indicate whether to generate output in CSV format.
private BooleanArgument csvFormat;
// Indicates that the tool should use the increment modification type instead
// of replace.
private BooleanArgument increment;
// Indicates that modify requests should include the permissive modify request
// control.
private BooleanArgument permissiveModify;
// The argument used to indicate whether to suppress information about error
// result codes.
private BooleanArgument suppressErrorsArgument;
// The argument used to indicate that a generic control should be included in
// the request.
private ControlArgument control;
// The argument used to specify a variable rate file.
private FileArgument sampleRateFile;
// The argument used to specify a variable rate file.
private FileArgument variableRateData;
// Indicates that modify requests should include the assertion request control
// with the specified filter.
private FilterArgument assertionFilter;
// The argument used to specify the collection interval.
private IntegerArgument collectionInterval;
// The increment amount to use when performing an increment instead of a
// replace.
private IntegerArgument incrementAmount;
// The argument used to specify the number of modify iterations on a
// connection before it is closed and re-established.
private IntegerArgument iterationsBeforeReconnect;
// The argument used to specify the number of intervals.
private IntegerArgument numIntervals;
// The argument used to specify the number of threads.
private IntegerArgument numThreads;
// The argument used to specify the seed to use for the random number
// generator.
private IntegerArgument randomSeed;
// The target rate of modifies per second.
private IntegerArgument ratePerSecond;
// The number of values to include in the replace modification.
private IntegerArgument valueCount;
// The argument used to specify the length of the values to generate.
private IntegerArgument valueLength;
// The number of warm-up intervals to perform.
private IntegerArgument warmUpIntervals;
// The argument used to specify the name of the attribute to modify.
private StringArgument attribute;
// The argument used to specify the set of characters to use when generating
// values.
private StringArgument characterSet;
// The argument used to specify the DNs of the entries to modify.
private StringArgument entryDN;
// Indicates that modify requests should include the post-read request control
// to request the specified attribute.
private StringArgument postReadAttribute;
// Indicates that modify requests should include the pre-read request control
// to request the specified attribute.
private StringArgument preReadAttribute;
// The argument used to specify the proxied authorization identity.
private StringArgument proxyAs;
// The argument used to specify the timestamp format.
private StringArgument timestampFormat;
// The argument used to specify the pattern to use to generate values.
private StringArgument valuePattern;
// The thread currently being used to run the searchrate tool.
private volatile Thread runningThread;
// A wakeable sleeper that will be used to sleep between reporting intervals.
private final WakeableSleeper sleeper;
/**
* Parse the provided command line arguments and make the appropriate set of
* changes.
*
* @param args The command line arguments provided to this program.
*/
public static void main(final String[] args)
{
final ResultCode resultCode = main(args, System.out, System.err);
if (resultCode != ResultCode.SUCCESS)
{
System.exit(resultCode.intValue());
}
}
/**
* Parse the provided command line arguments and make the appropriate set of
* changes.
*
* @param args The command line arguments provided to this program.
* @param outStream The output stream to which standard out should be
* written. It may be {@code null} if output should be
* suppressed.
* @param errStream The output stream to which standard error should be
* written. It may be {@code null} if error messages
* should be suppressed.
*
* @return A result code indicating whether the processing was successful.
*/
public static ResultCode main(final String[] args,
final OutputStream outStream,
final OutputStream errStream)
{
final ModRate modRate = new ModRate(outStream, errStream);
return modRate.runTool(args);
}
/**
* Creates a new instance of this tool.
*
* @param outStream The output stream to which standard out should be
* written. It may be {@code null} if output should be
* suppressed.
* @param errStream The output stream to which standard error should be
* written. It may be {@code null} if error messages
* should be suppressed.
*/
public ModRate(final OutputStream outStream, final OutputStream errStream)
{
super(outStream, errStream);
stopRequested = new AtomicBoolean(false);
sleeper = new WakeableSleeper();
}
/**
* Retrieves the name for this tool.
*
* @return The name for this tool.
*/
@Override()
public String getToolName()
{
return "modrate";
}
/**
* Retrieves the description for this tool.
*
* @return The description for this tool.
*/
@Override()
public String getToolDescription()
{
return "Perform repeated modifications against " +
"an LDAP directory server.";
}
/**
* Retrieves the version string for this tool.
*
* @return The version string for this tool.
*/
@Override()
public String getToolVersion()
{
return Version.NUMERIC_VERSION_STRING;
}
/**
* Indicates whether this tool should provide support for an interactive mode,
* in which the tool offers a mode in which the arguments can be provided in
* a text-driven menu rather than requiring them to be given on the command
* line. If interactive mode is supported, it may be invoked using the
* "--interactive" argument. Alternately, if interactive mode is supported
* and {@link #defaultsToInteractiveMode()} returns {@code true}, then
* interactive mode may be invoked by simply launching the tool without any
* arguments.
*
* @return {@code true} if this tool supports interactive mode, or
* {@code false} if not.
*/
@Override()
public boolean supportsInteractiveMode()
{
return true;
}
/**
* Indicates whether this tool defaults to launching in interactive mode if
* the tool is invoked without any command-line arguments. This will only be
* used if {@link #supportsInteractiveMode()} returns {@code true}.
*
* @return {@code true} if this tool defaults to using interactive mode if
* launched without any command-line arguments, or {@code false} if
* not.
*/
@Override()
public boolean defaultsToInteractiveMode()
{
return true;
}
/**
* Indicates whether this tool should provide arguments for redirecting output
* to a file. If this method returns {@code true}, then the tool will offer
* an "--outputFile" argument that will specify the path to a file to which
* all standard output and standard error content will be written, and it will
* also offer a "--teeToStandardOut" argument that can only be used if the
* "--outputFile" argument is present and will cause all output to be written
* to both the specified output file and to standard output.
*
* @return {@code true} if this tool should provide arguments for redirecting
* output to a file, or {@code false} if not.
*/
@Override()
protected boolean supportsOutputFile()
{
return true;
}
/**
* Indicates whether this tool should default to interactively prompting for
* the bind password if a password is required but no argument was provided
* to indicate how to get the password.
*
* @return {@code true} if this tool should default to interactively
* prompting for the bind password, or {@code false} if not.
*/
@Override()
protected boolean defaultToPromptForBindPassword()
{
return true;
}
/**
* Indicates whether this tool supports the use of a properties file for
* specifying default values for arguments that aren't specified on the
* command line.
*
* @return {@code true} if this tool supports the use of a properties file
* for specifying default values for arguments that aren't specified
* on the command line, or {@code false} if not.
*/
@Override()
public boolean supportsPropertiesFile()
{
return true;
}
/**
* Indicates whether the LDAP-specific arguments should include alternate
* versions of all long identifiers that consist of multiple words so that
* they are available in both camelCase and dash-separated versions.
*
* @return {@code true} if this tool should provide multiple versions of
* long identifiers for LDAP-specific arguments, or {@code false} if
* not.
*/
@Override()
protected boolean includeAlternateLongIdentifiers()
{
return true;
}
/**
* {@inheritDoc}
*/
@Override()
protected boolean logToolInvocationByDefault()
{
return true;
}
/**
* Adds the arguments used by this program that aren't already provided by the
* generic {@code LDAPCommandLineTool} framework.
*
* @param parser The argument parser to which the arguments should be added.
*
* @throws ArgumentException If a problem occurs while adding the arguments.
*/
@Override()
public void addNonLDAPArguments(final ArgumentParser parser)
throws ArgumentException
{
String description = "The DN of the entry to modify. It may be a simple " +
"DN or a value pattern to specify a range of DN (e.g., " +
"\"uid=user.[1-1000],ou=People,dc=example,dc=com\"). See " +
ValuePattern.PUBLIC_JAVADOC_URL + " for complete details about the " +
"value pattern syntax. This must be provided.";
entryDN = new StringArgument('b', "entryDN", true, 1, "{dn}", description);
entryDN.setArgumentGroupName("Modification Arguments");
entryDN.addLongIdentifier("entry-dn", true);
parser.addArgument(entryDN);
description = "The name of the attribute to modify. Multiple attributes " +
"may be specified by providing this argument multiple " +
"times. At least one attribute must be specified.";
attribute = new StringArgument('A', "attribute", true, 0, "{name}",
description);
attribute.setArgumentGroupName("Modification Arguments");
parser.addArgument(attribute);
description = "The pattern to use to generate values for the replace " +
"modifications. If this is provided, then neither the " +
"--valueLength argument nor the --characterSet arguments " +
"may be provided.";
valuePattern = new StringArgument(null, "valuePattern", false, 1,
"{pattern}", description);
valuePattern.setArgumentGroupName("Modification Arguments");
valuePattern.addLongIdentifier("value-pattern", true);
parser.addArgument(valuePattern);
description = "The length in bytes to use when generating values for the " +
"replace modifications. If this is not provided, then a " +
"default length of ten bytes will be used.";
valueLength = new IntegerArgument('l', "valueLength", false, 1, "{num}",
description, 1, Integer.MAX_VALUE);
valueLength.setArgumentGroupName("Modification Arguments");
valueLength.addLongIdentifier("value-length", true);
parser.addArgument(valueLength);
description = "The number of values to include in replace " +
"modifications. If this is not provided, then a default " +
"of one value will be used.";
valueCount = new IntegerArgument(null, "valueCount", false, 1, "{num}",
description, 0, Integer.MAX_VALUE, 1);
valueCount.setArgumentGroupName("Modification Arguments");
valueCount.addLongIdentifier("value-count", true);
parser.addArgument(valueCount);
description = "Indicates that the tool should use the increment " +
"modification type rather than the replace modification " +
"type.";
increment = new BooleanArgument(null, "increment", 1, description);
increment.setArgumentGroupName("Modification Arguments");
parser.addArgument(increment);
description = "The amount by which to increment values when using the " +
"increment modification type. The amount may be negative " +
"if values should be decremented rather than incremented. " +
"If this is not provided, then a default increment amount " +
"of one will be used.";
incrementAmount = new IntegerArgument(null, "incrementAmount", false, 1,
null, description, Integer.MIN_VALUE,
Integer.MAX_VALUE, 1);
incrementAmount.setArgumentGroupName("Modification Arguments");
incrementAmount.addLongIdentifier("increment-amount", true);
parser.addArgument(incrementAmount);
description = "The set of characters to use to generate the values for " +
"the modifications. It should only include ASCII " +
"characters. If this is not provided, then a default set " +
"of lowercase alphabetic characters will be used.";
characterSet = new StringArgument('C', "characterSet", false, 1, "{chars}",
description);
characterSet.setArgumentGroupName("Modification Arguments");
characterSet.addLongIdentifier("character-set", true);
parser.addArgument(characterSet);
description = "Indicates that modify requests should include the " +
"assertion request control with the specified filter.";
assertionFilter = new FilterArgument(null, "assertionFilter", false, 1,
"{filter}", description);
assertionFilter.setArgumentGroupName("Request Control Arguments");
assertionFilter.addLongIdentifier("assertion-filter", true);
parser.addArgument(assertionFilter);
description = "Indicates that modify requests should include the " +
"permissive modify request control.";
permissiveModify = new BooleanArgument(null, "permissiveModify", 1,
description);
permissiveModify.setArgumentGroupName("Request Control Arguments");
permissiveModify.addLongIdentifier("permissive-modify", true);
parser.addArgument(permissiveModify);
description = "Indicates that modify requests should include the " +
"pre-read request control with the specified requested " +
"attribute. This argument may be provided multiple times " +
"to indicate that multiple requested attributes should be " +
"included in the pre-read request control.";
preReadAttribute = new StringArgument(null, "preReadAttribute", false, 0,
"{attribute}", description);
preReadAttribute.setArgumentGroupName("Request Control Arguments");
preReadAttribute.addLongIdentifier("pre-read-attribute", true);
parser.addArgument(preReadAttribute);
description = "Indicates that modify requests should include the " +
"post-read request control with the specified requested " +
"attribute. This argument may be provided multiple times " +
"to indicate that multiple requested attributes should be " +
"included in the post-read request control.";
postReadAttribute = new StringArgument(null, "postReadAttribute", false, 0,
"{attribute}", description);
postReadAttribute.setArgumentGroupName("Request Control Arguments");
postReadAttribute.addLongIdentifier("post-read-attribute", true);
parser.addArgument(postReadAttribute);
description = "Indicates that the proxied authorization control (as " +
"defined in RFC 4370) should be used to request that " +
"operations be processed using an alternate authorization " +
"identity. This may be a simple authorization ID or it " +
"may be a value pattern to specify a range of " +
"identities. See " + ValuePattern.PUBLIC_JAVADOC_URL +
" for complete details about the value pattern syntax.";
proxyAs = new StringArgument('Y', "proxyAs", false, 1, "{authzID}",
description);
proxyAs.setArgumentGroupName("Request Control Arguments");
proxyAs.addLongIdentifier("proxy-as", true);
parser.addArgument(proxyAs);
description = "Indicates that modify requests should include the " +
"specified request control. This may be provided multiple " +
"times to include multiple request controls.";
control = new ControlArgument('J', "control", false, 0, null, description);
control.setArgumentGroupName("Request Control Arguments");
parser.addArgument(control);
description = "The number of threads to use to perform the " +
"modifications. If this is not provided, a single thread " +
"will be used.";
numThreads = new IntegerArgument('t', "numThreads", true, 1, "{num}",
description, 1, Integer.MAX_VALUE, 1);
numThreads.setArgumentGroupName("Rate Management Arguments");
numThreads.addLongIdentifier("num-threads", true);
parser.addArgument(numThreads);
description = "The length of time in seconds between output lines. If " +
"this is not provided, then a default interval of five " +
"seconds will be used.";
collectionInterval = new IntegerArgument('i', "intervalDuration", true, 1,
"{num}", description, 1,
Integer.MAX_VALUE, 5);
collectionInterval.setArgumentGroupName("Rate Management Arguments");
collectionInterval.addLongIdentifier("interval-duration", true);
parser.addArgument(collectionInterval);
description = "The maximum number of intervals for which to run. If " +
"this is not provided, then the tool will run until it is " +
"interrupted.";
numIntervals = new IntegerArgument('I', "numIntervals", true, 1, "{num}",
description, 1, Integer.MAX_VALUE,
Integer.MAX_VALUE);
numIntervals.setArgumentGroupName("Rate Management Arguments");
numIntervals.addLongIdentifier("num-intervals", true);
parser.addArgument(numIntervals);
description = "The number of modify iterations that should be processed " +
"on a connection before that connection is closed and " +
"replaced with a newly-established (and authenticated, if " +
"appropriate) connection. If this is not provided, then " +
"connections will not be periodically closed and " +
"re-established.";
iterationsBeforeReconnect = new IntegerArgument(null,
"iterationsBeforeReconnect", false, 1, "{num}", description, 0);
iterationsBeforeReconnect.setArgumentGroupName("Rate Management Arguments");
iterationsBeforeReconnect.addLongIdentifier("iterations-before-reconnect",
true);
parser.addArgument(iterationsBeforeReconnect);
description = "The target number of modifies to perform per second. It " +
"is still necessary to specify a sufficient number of " +
"threads for achieving this rate. If neither this option " +
"nor --variableRateData is provided, then the tool will " +
"run at the maximum rate for the specified number of " +
"threads.";
ratePerSecond = new IntegerArgument('r', "ratePerSecond", false, 1,
"{modifies-per-second}", description,
1, Integer.MAX_VALUE);
ratePerSecond.setArgumentGroupName("Rate Management Arguments");
ratePerSecond.addLongIdentifier("rate-per-second", true);
parser.addArgument(ratePerSecond);
final String variableRateDataArgName = "variableRateData";
final String generateSampleRateFileArgName = "generateSampleRateFile";
description = RateAdjustor.getVariableRateDataArgumentDescription(
generateSampleRateFileArgName);
variableRateData = new FileArgument(null, variableRateDataArgName, false, 1,
"{path}", description, true, true, true,
false);
variableRateData.setArgumentGroupName("Rate Management Arguments");
variableRateData.addLongIdentifier("variable-rate-data", true);
parser.addArgument(variableRateData);
description = RateAdjustor.getGenerateSampleVariableRateFileDescription(
variableRateDataArgName);
sampleRateFile = new FileArgument(null, generateSampleRateFileArgName,
false, 1, "{path}", description, false,
true, true, false);
sampleRateFile.setArgumentGroupName("Rate Management Arguments");
sampleRateFile.addLongIdentifier("generate-sample-rate-file", true);
sampleRateFile.setUsageArgument(true);
parser.addArgument(sampleRateFile);
parser.addExclusiveArgumentSet(variableRateData, sampleRateFile);
description = "The number of intervals to complete before beginning " +
"overall statistics collection. Specifying a nonzero " +
"number of warm-up intervals gives the client and server " +
"a chance to warm up without skewing performance results.";
warmUpIntervals = new IntegerArgument(null, "warmUpIntervals", true, 1,
"{num}", description, 0, Integer.MAX_VALUE, 0);
warmUpIntervals.setArgumentGroupName("Rate Management Arguments");
warmUpIntervals.addLongIdentifier("warm-up-intervals", true);
parser.addArgument(warmUpIntervals);
description = "Indicates the format to use for timestamps included in " +
"the output. A value of 'none' indicates that no " +
"timestamps should be included. A value of 'with-date' " +
"indicates that both the date and the time should be " +
"included. A value of 'without-date' indicates that only " +
"the time should be included.";
final Set allowedFormats =
StaticUtils.setOf("none", "with-date", "without-date");
timestampFormat = new StringArgument(null, "timestampFormat", true, 1,
"{format}", description, allowedFormats, "none");
timestampFormat.addLongIdentifier("timestamp-format", true);
parser.addArgument(timestampFormat);
description = "Indicates that information about the result codes for " +
"failed operations should not be displayed.";
suppressErrorsArgument = new BooleanArgument(null,
"suppressErrorResultCodes", 1, description);
suppressErrorsArgument.addLongIdentifier("suppress-error-result-codes",
true);
parser.addArgument(suppressErrorsArgument);
description = "Generate output in CSV format rather than a " +
"display-friendly format";
csvFormat = new BooleanArgument('c', "csv", 1, description);
parser.addArgument(csvFormat);
description = "Specifies the seed to use for the random number generator.";
randomSeed = new IntegerArgument('R', "randomSeed", false, 1, "{value}",
description);
randomSeed.addLongIdentifier("random-seed", true);
parser.addArgument(randomSeed);
// The incrementAmount argument can only be used if the increment argument
// is provided.
parser.addDependentArgumentSet(incrementAmount, increment);
// None of the valueLength, valueCount, characterSet, or valuePattern
// arguments can be used if the increment argument is provided.
parser.addExclusiveArgumentSet(increment, valueLength);
parser.addExclusiveArgumentSet(increment, valueCount);
parser.addExclusiveArgumentSet(increment, characterSet);
parser.addExclusiveArgumentSet(increment, valuePattern);
// The valuePattern argument cannot be used with either the valueLength or
// characterSet arguments.
parser.addExclusiveArgumentSet(valuePattern, valueLength);
parser.addExclusiveArgumentSet(valuePattern, characterSet);
}
/**
* Indicates whether this tool supports creating connections to multiple
* servers. If it is to support multiple servers, then the "--hostname" and
* "--port" arguments will be allowed to be provided multiple times, and
* will be required to be provided the same number of times. The same type of
* communication security and bind credentials will be used for all servers.
*
* @return {@code true} if this tool supports creating connections to
* multiple servers, or {@code false} if not.
*/
@Override()
protected boolean supportsMultipleServers()
{
return true;
}
/**
* Retrieves the connection options that should be used for connections
* created for use with this tool.
*
* @return The connection options that should be used for connections created
* for use with this tool.
*/
@Override()
public LDAPConnectionOptions getConnectionOptions()
{
final LDAPConnectionOptions options = new LDAPConnectionOptions();
options.setUseSynchronousMode(true);
return options;
}
/**
* Performs the actual processing for this tool. In this case, it gets a
* connection to the directory server and uses it to perform the requested
* modifications.
*
* @return The result code for the processing that was performed.
*/
@Override()
public ResultCode doToolProcessing()
{
runningThread = Thread.currentThread();
try
{
return doToolProcessingInternal();
}
finally
{
runningThread = null;
}
}
/**
* Performs the actual processing for this tool. In this case, it gets a
* connection to the directory server and uses it to perform the requested
* modifications.
*
* @return The result code for the processing that was performed.
*/
private ResultCode doToolProcessingInternal()
{
// If the sample rate file argument was specified, then generate the sample
// variable rate data file and return.
if (sampleRateFile.isPresent())
{
try
{
RateAdjustor.writeSampleVariableRateFile(sampleRateFile.getValue());
return ResultCode.SUCCESS;
}
catch (final Exception e)
{
Debug.debugException(e);
err("An error occurred while trying to write sample variable data " +
"rate file '", sampleRateFile.getValue().getAbsolutePath(),
"': ", StaticUtils.getExceptionMessage(e));
return ResultCode.LOCAL_ERROR;
}
}
// Determine the random seed to use.
final Long seed;
if (randomSeed.isPresent())
{
seed = Long.valueOf(randomSeed.getValue());
}
else
{
seed = null;
}
// Create the value patterns for the target entry DN and proxied
// authorization identities.
final ValuePattern dnPattern;
try
{
dnPattern = new ValuePattern(entryDN.getValue(), seed);
}
catch (final ParseException pe)
{
Debug.debugException(pe);
err("Unable to parse the entry DN value pattern: ", pe.getMessage());
return ResultCode.PARAM_ERROR;
}
final ValuePattern authzIDPattern;
if (proxyAs.isPresent())
{
try
{
authzIDPattern = new ValuePattern(proxyAs.getValue(), seed);
}
catch (final ParseException pe)
{
Debug.debugException(pe);
err("Unable to parse the proxied authorization pattern: ",
pe.getMessage());
return ResultCode.PARAM_ERROR;
}
}
else
{
authzIDPattern = null;
}
// Get the set of controls to include in modify requests.
final ArrayList controlList = new ArrayList<>(5);
if (assertionFilter.isPresent())
{
controlList.add(new AssertionRequestControl(assertionFilter.getValue()));
}
if (permissiveModify.isPresent())
{
controlList.add(new PermissiveModifyRequestControl());
}
if (preReadAttribute.isPresent())
{
final List attrList = preReadAttribute.getValues();
final String[] attrArray = new String[attrList.size()];
attrList.toArray(attrArray);
controlList.add(new PreReadRequestControl(attrArray));
}
if (postReadAttribute.isPresent())
{
final List attrList = postReadAttribute.getValues();
final String[] attrArray = new String[attrList.size()];
attrList.toArray(attrArray);
controlList.add(new PostReadRequestControl(attrArray));
}
if (control.isPresent())
{
controlList.addAll(control.getValues());
}
final Control[] controlArray = new Control[controlList.size()];
controlList.toArray(controlArray);
// Get the names of the attributes to modify.
final String[] attrs = new String[attribute.getValues().size()];
attribute.getValues().toArray(attrs);
// If the --ratePerSecond option was specified, then limit the rate
// accordingly.
FixedRateBarrier fixedRateBarrier = null;
if (ratePerSecond.isPresent() || variableRateData.isPresent())
{
// We might not have a rate per second if --variableRateData is specified.
// The rate typically doesn't matter except when we have warm-up
// intervals. In this case, we'll run at the max rate.
final int intervalSeconds = collectionInterval.getValue();
final int ratePerInterval =
(ratePerSecond.getValue() == null)
? Integer.MAX_VALUE
: ratePerSecond.getValue() * intervalSeconds;
fixedRateBarrier =
new FixedRateBarrier(1000L * intervalSeconds, ratePerInterval);
}
// If --variableRateData was specified, then initialize a RateAdjustor.
RateAdjustor rateAdjustor = null;
if (variableRateData.isPresent())
{
try
{
rateAdjustor = RateAdjustor.newInstance(fixedRateBarrier,
ratePerSecond.getValue(), variableRateData.getValue());
}
catch (final IOException | IllegalArgumentException e)
{
Debug.debugException(e);
err("Initializing the variable rates failed: " + e.getMessage());
return ResultCode.PARAM_ERROR;
}
}
// Determine whether to include timestamps in the output and if so what
// format should be used for them.
final boolean includeTimestamp;
final String timeFormat;
if (timestampFormat.getValue().equalsIgnoreCase("with-date"))
{
includeTimestamp = true;
timeFormat = "dd/MM/yyyy HH:mm:ss";
}
else if (timestampFormat.getValue().equalsIgnoreCase("without-date"))
{
includeTimestamp = true;
timeFormat = "HH:mm:ss";
}
else
{
includeTimestamp = false;
timeFormat = null;
}
// Determine whether any warm-up intervals should be run.
final long totalIntervals;
final boolean warmUp;
int remainingWarmUpIntervals = warmUpIntervals.getValue();
if (remainingWarmUpIntervals > 0)
{
warmUp = true;
totalIntervals = 0L + numIntervals.getValue() + remainingWarmUpIntervals;
}
else
{
warmUp = true;
totalIntervals = 0L + numIntervals.getValue();
}
// Create the table that will be used to format the output.
final OutputFormat outputFormat;
if (csvFormat.isPresent())
{
outputFormat = OutputFormat.CSV;
}
else
{
outputFormat = OutputFormat.COLUMNS;
}
final ColumnFormatter formatter = new ColumnFormatter(includeTimestamp,
timeFormat, outputFormat, " ",
new FormattableColumn(12, HorizontalAlignment.RIGHT, "Recent",
"Mods/Sec"),
new FormattableColumn(12, HorizontalAlignment.RIGHT, "Recent",
"Avg Dur ms"),
new FormattableColumn(12, HorizontalAlignment.RIGHT, "Recent",
"Errors/Sec"),
new FormattableColumn(12, HorizontalAlignment.RIGHT, "Overall",
"Mods/Sec"),
new FormattableColumn(12, HorizontalAlignment.RIGHT, "Overall",
"Avg Dur ms"));
// Create values to use for statistics collection.
final AtomicLong modCounter = new AtomicLong(0L);
final AtomicLong errorCounter = new AtomicLong(0L);
final AtomicLong modDurations = new AtomicLong(0L);
final ResultCodeCounter rcCounter = new ResultCodeCounter();
// Determine the length of each interval in milliseconds.
final long intervalMillis = 1000L * collectionInterval.getValue();
// Create the threads to use for the modifications.
final CyclicBarrier barrier = new CyclicBarrier(numThreads.getValue() + 1);
final ModRateThread[] threads = new ModRateThread[numThreads.getValue()];
for (int i=0; i < threads.length; i++)
{
final LDAPConnection connection;
try
{
connection = getConnection();
}
catch (final LDAPException le)
{
Debug.debugException(le);
err("Unable to connect to the directory server: ",
StaticUtils.getExceptionMessage(le));
return le.getResultCode();
}
final String valuePatternString;
if (valuePattern.isPresent())
{
valuePatternString = valuePattern.getValue();
}
else
{
final int length;
if (valueLength.isPresent())
{
length = valueLength.getValue();
}
else
{
length = 10;
}
final String charSet;
if (characterSet.isPresent())
{
charSet =
characterSet.getValue().replace("]", "]]").replace("[", "[[");
}
else
{
charSet = "abcdefghijklmnopqrstuvwxyz";
}
valuePatternString = "[random:" + length + ':' + charSet + ']';
}
final ValuePattern parsedValuePattern;
try
{
parsedValuePattern = new ValuePattern(valuePatternString);
}
catch (final ParseException e)
{
Debug.debugException(e);
err(e.getMessage());
return ResultCode.PARAM_ERROR;
}
threads[i] = new ModRateThread(this, i, connection, dnPattern, attrs,
parsedValuePattern, valueCount.getValue(), increment.isPresent(),
incrementAmount.getValue(), controlArray, authzIDPattern,
iterationsBeforeReconnect.getValue(), barrier,
modCounter, modDurations, errorCounter, rcCounter, fixedRateBarrier);
threads[i].start();
}
// Display the table header.
for (final String headerLine : formatter.getHeaderLines(true))
{
out(headerLine);
}
// Start the RateAdjustor before the threads so that the initial value is
// in place before any load is generated unless we're doing a warm-up in
// which case, we'll start it after the warm-up is complete.
if ((rateAdjustor != null) && (remainingWarmUpIntervals <= 0))
{
rateAdjustor.start();
}
// Indicate that the threads can start running.
try
{
barrier.await();
}
catch (final Exception e)
{
Debug.debugException(e);
}
long overallStartTime = System.nanoTime();
long nextIntervalStartTime = System.currentTimeMillis() + intervalMillis;
boolean setOverallStartTime = false;
long lastDuration = 0L;
long lastNumErrors = 0L;
long lastNumMods = 0L;
long lastEndTime = System.nanoTime();
for (long i=0; i < totalIntervals; i++)
{
if (rateAdjustor != null)
{
if (! rateAdjustor.isAlive())
{
out("All of the rates in " + variableRateData.getValue().getName() +
" have been completed.");
break;
}
}
final long startTimeMillis = System.currentTimeMillis();
final long sleepTimeMillis = nextIntervalStartTime - startTimeMillis;
nextIntervalStartTime += intervalMillis;
if (sleepTimeMillis > 0)
{
sleeper.sleep(sleepTimeMillis);
}
if (stopRequested.get())
{
break;
}
final long endTime = System.nanoTime();
final long intervalDuration = endTime - lastEndTime;
final long numMods;
final long numErrors;
final long totalDuration;
if (warmUp && (remainingWarmUpIntervals > 0))
{
numMods = modCounter.getAndSet(0L);
numErrors = errorCounter.getAndSet(0L);
totalDuration = modDurations.getAndSet(0L);
}
else
{
numMods = modCounter.get();
numErrors = errorCounter.get();
totalDuration = modDurations.get();
}
final long recentNumMods = numMods - lastNumMods;
final long recentNumErrors = numErrors - lastNumErrors;
final long recentDuration = totalDuration - lastDuration;
final double numSeconds = intervalDuration / 1_000_000_000.0d;
final double recentModRate = recentNumMods / numSeconds;
final double recentErrorRate = recentNumErrors / numSeconds;
final double recentAvgDuration;
if (recentNumMods > 0L)
{
recentAvgDuration = 1.0d * recentDuration / recentNumMods / 1_000_000;
}
else
{
recentAvgDuration = 0.0d;
}
if (warmUp && (remainingWarmUpIntervals > 0))
{
out(formatter.formatRow(recentModRate, recentAvgDuration,
recentErrorRate, "warming up", "warming up"));
remainingWarmUpIntervals--;
if (remainingWarmUpIntervals == 0)
{
out("Warm-up completed. Beginning overall statistics collection.");
setOverallStartTime = true;
if (rateAdjustor != null)
{
rateAdjustor.start();
}
}
}
else
{
if (setOverallStartTime)
{
overallStartTime = lastEndTime;
setOverallStartTime = false;
}
final double numOverallSeconds =
(endTime - overallStartTime) / 1_000_000_000.0d;
final double overallAuthRate = numMods / numOverallSeconds;
final double overallAvgDuration;
if (numMods > 0L)
{
overallAvgDuration = 1.0d * totalDuration / numMods / 1_000_000;
}
else
{
overallAvgDuration = 0.0d;
}
out(formatter.formatRow(recentModRate, recentAvgDuration,
recentErrorRate, overallAuthRate, overallAvgDuration));
lastNumMods = numMods;
lastNumErrors = numErrors;
lastDuration = totalDuration;
}
final List> rcCounts =
rcCounter.getCounts(true);
if ((! suppressErrorsArgument.isPresent()) && (! rcCounts.isEmpty()))
{
err("\tError Results:");
for (final ObjectPair p : rcCounts)
{
err("\t", p.getFirst().getName(), ": ", p.getSecond());
}
}
lastEndTime = endTime;
}
// Shut down the RateAdjustor if we have one.
if (rateAdjustor != null)
{
rateAdjustor.shutDown();
}
// Stop all of the threads.
ResultCode resultCode = ResultCode.SUCCESS;
for (final ModRateThread t : threads)
{
final ResultCode r = t.stopRunning();
if (resultCode == ResultCode.SUCCESS)
{
resultCode = r;
}
}
return resultCode;
}
/**
* Requests that this tool stop running. This method will attempt to wait
* for all threads to complete before returning control to the caller.
*/
public void stopRunning()
{
stopRequested.set(true);
sleeper.wakeup();
final Thread t = runningThread;
if (t != null)
{
try
{
t.join();
}
catch (final Exception e)
{
Debug.debugException(e);
if (e instanceof InterruptedException)
{
Thread.currentThread().interrupt();
}
}
}
}
/**
* {@inheritDoc}
*/
@Override()
public LinkedHashMap getExampleUsages()
{
final LinkedHashMap examples =
new LinkedHashMap<>(StaticUtils.computeMapCapacity(2));
String[] args =
{
"--hostname", "server.example.com",
"--port", "389",
"--bindDN", "uid=admin,dc=example,dc=com",
"--bindPassword", "password",
"--entryDN", "uid=user.[1-1000000],ou=People,dc=example,dc=com",
"--attribute", "description",
"--valueLength", "12",
"--numThreads", "10"
};
String description =
"Test modify performance by randomly selecting entries across a set " +
"of one million users located below 'ou=People,dc=example,dc=com' " +
"with ten concurrent threads and replacing the values for the " +
"description attribute with a string of 12 randomly-selected " +
"lowercase alphabetic characters.";
examples.put(args, description);
args = new String[]
{
"--generateSampleRateFile", "variable-rate-data.txt"
};
description =
"Generate a sample variable rate definition file that may be used " +
"in conjunction with the --variableRateData argument. The sample " +
"file will include comments that describe the format for data to be " +
"included in this file.";
examples.put(args, description);
return examples;
}
}