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Example 1 with ValuePattern

use of com.unboundid.util.ValuePattern in project ldapsdk by pingidentity.

the class SearchRate method doToolProcessing.

/**
 * 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
 * searches.
 *
 * @return  The result code for the processing that was performed.
 */
@Override()
@NotNull()
public ResultCode doToolProcessing() {
    // 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 value patterns for the base DN, filter, LDAP URL, and proxied
    // authorization DN.
    final ValuePattern dnPattern;
    try {
        if (baseDN.getNumOccurrences() > 0) {
            dnPattern = new ValuePattern(baseDN.getValue(), seed);
        } else if (ldapURL.isPresent()) {
            dnPattern = null;
        } else {
            dnPattern = new ValuePattern("", seed);
        }
    } catch (final ParseException pe) {
        Debug.debugException(pe);
        err("Unable to parse the base DN value pattern:  ", pe.getMessage());
        return ResultCode.PARAM_ERROR;
    }
    final ValuePattern filterPattern;
    try {
        if (filter.isPresent()) {
            filterPattern = new ValuePattern(filter.getValue(), seed);
        } else {
            filterPattern = null;
        }
    } catch (final ParseException pe) {
        Debug.debugException(pe);
        err("Unable to parse the filter pattern:  ", pe.getMessage());
        return ResultCode.PARAM_ERROR;
    }
    final ValuePattern ldapURLPattern;
    try {
        if (ldapURL.isPresent()) {
            ldapURLPattern = new ValuePattern(ldapURL.getValue(), seed);
        } else {
            ldapURLPattern = null;
        }
    } catch (final ParseException pe) {
        Debug.debugException(pe);
        err("Unable to parse the LDAP URL 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 alias dereference policy to use.
    final DereferencePolicy derefPolicy;
    final String derefValue = StaticUtils.toLowerCase(dereferencePolicy.getValue());
    if (derefValue.equals("always")) {
        derefPolicy = DereferencePolicy.ALWAYS;
    } else if (derefValue.equals("search")) {
        derefPolicy = DereferencePolicy.SEARCHING;
    } else if (derefValue.equals("find")) {
        derefPolicy = DereferencePolicy.FINDING;
    } else {
        derefPolicy = DereferencePolicy.NEVER;
    }
    // Get the set of controls to include in search requests.
    final ArrayList<Control> controlList = new ArrayList<>(5);
    if (assertionFilter.isPresent()) {
        controlList.add(new AssertionRequestControl(assertionFilter.getValue()));
    }
    if (sortOrder.isPresent()) {
        final ArrayList<SortKey> sortKeys = new ArrayList<>(5);
        final StringTokenizer tokenizer = new StringTokenizer(sortOrder.getValue(), ",");
        while (tokenizer.hasMoreTokens()) {
            String token = tokenizer.nextToken().trim();
            final boolean ascending;
            if (token.startsWith("+")) {
                ascending = true;
                token = token.substring(1);
            } else if (token.startsWith("-")) {
                ascending = false;
                token = token.substring(1);
            } else {
                ascending = true;
            }
            final String attributeName;
            final String matchingRuleID;
            final int colonPos = token.indexOf(':');
            if (colonPos < 0) {
                attributeName = token;
                matchingRuleID = null;
            } else {
                attributeName = token.substring(0, colonPos);
                matchingRuleID = token.substring(colonPos + 1);
            }
            sortKeys.add(new SortKey(attributeName, matchingRuleID, (!ascending)));
        }
        controlList.add(new ServerSideSortRequestControl(sortKeys));
    }
    if (control.isPresent()) {
        controlList.addAll(control.getValues());
    }
    // Get the attributes to return.
    final String[] attrs;
    if (attributes.isPresent()) {
        final List<String> attrList = attributes.getValues();
        attrs = new String[attrList.size()];
        attrList.toArray(attrs);
    } else {
        attrs = StaticUtils.NO_STRINGS;
    }
    // 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;
        }
    }
    // If the --maxOutstandingRequests option was specified, then create the
    // semaphore used to enforce that limit.
    final Semaphore asyncSemaphore;
    if (maxOutstandingRequests.isPresent()) {
        asyncSemaphore = new Semaphore(maxOutstandingRequests.getValue());
    } else {
        asyncSemaphore = null;
    }
    // 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", "Searches/Sec"), new FormattableColumn(12, HorizontalAlignment.RIGHT, "Recent", "Avg Dur ms"), new FormattableColumn(12, HorizontalAlignment.RIGHT, "Recent", "Entries/Srch"), new FormattableColumn(12, HorizontalAlignment.RIGHT, "Recent", "Errors/Sec"), new FormattableColumn(12, HorizontalAlignment.RIGHT, "Overall", "Searches/Sec"), new FormattableColumn(12, HorizontalAlignment.RIGHT, "Overall", "Avg Dur ms"));
    // Create values to use for statistics collection.
    final AtomicLong searchCounter = new AtomicLong(0L);
    final AtomicLong entryCounter = new AtomicLong(0L);
    final AtomicLong errorCounter = new AtomicLong(0L);
    final AtomicLong searchDurations = 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 searches.
    final CyclicBarrier barrier = new CyclicBarrier(numThreads.getValue() + 1);
    final SearchRateThread[] threads = new SearchRateThread[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();
        }
        threads[i] = new SearchRateThread(this, i, connection, asynchronousMode.isPresent(), dnPattern, scope.getValue(), derefPolicy, sizeLimit.getValue(), timeLimitSeconds.getValue(), typesOnly.isPresent(), filterPattern, attrs, ldapURLPattern, authzIDPattern, simplePageSize.getValue(), controlList, iterationsBeforeReconnect.getValue(), runningThreads, barrier, searchCounter, entryCounter, searchDurations, errorCounter, rcCounter, fixedRateBarrier, asyncSemaphore);
        threads[i].start();
    }
    // Display the table header.
    for (final String headerLine : formatter.getHeaderLines(true)) {
        out(headerLine);
    }
    // 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 lastNumEntries = 0L;
    long lastNumErrors = 0L;
    long lastNumSearches = 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 numSearches;
        final long numEntries;
        final long numErrors;
        final long totalDuration;
        if (warmUp && (remainingWarmUpIntervals > 0)) {
            numSearches = searchCounter.getAndSet(0L);
            numEntries = entryCounter.getAndSet(0L);
            numErrors = errorCounter.getAndSet(0L);
            totalDuration = searchDurations.getAndSet(0L);
        } else {
            numSearches = searchCounter.get();
            numEntries = entryCounter.get();
            numErrors = errorCounter.get();
            totalDuration = searchDurations.get();
        }
        final long recentNumSearches = numSearches - lastNumSearches;
        final long recentNumEntries = numEntries - lastNumEntries;
        final long recentNumErrors = numErrors - lastNumErrors;
        final long recentDuration = totalDuration - lastDuration;
        final double numSeconds = intervalDuration / 1_000_000_000.0d;
        final double recentSearchRate = recentNumSearches / numSeconds;
        final double recentErrorRate = recentNumErrors / numSeconds;
        final double recentAvgDuration;
        final double recentEntriesPerSearch;
        if (recentNumSearches > 0L) {
            recentEntriesPerSearch = 1.0d * recentNumEntries / recentNumSearches;
            recentAvgDuration = 1.0d * recentDuration / recentNumSearches / 1_000_000;
        } else {
            recentEntriesPerSearch = 0.0d;
            recentAvgDuration = 0.0d;
        }
        if (warmUp && (remainingWarmUpIntervals > 0)) {
            out(formatter.formatRow(recentSearchRate, recentAvgDuration, recentEntriesPerSearch, 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 overallSearchRate = numSearches / numOverallSeconds;
            final double overallAvgDuration;
            if (numSearches > 0L) {
                overallAvgDuration = 1.0d * totalDuration / numSearches / 1_000_000;
            } else {
                overallAvgDuration = 0.0d;
            }
            out(formatter.formatRow(recentSearchRate, recentAvgDuration, recentEntriesPerSearch, recentErrorRate, overallSearchRate, overallAvgDuration));
            lastNumSearches = numSearches;
            lastNumEntries = numEntries;
            lastNumErrors = numErrors;
            lastDuration = totalDuration;
        }
        final List<ObjectPair<ResultCode, Long>> rcCounts = rcCounter.getCounts(true);
        if ((!suppressErrors.isPresent()) && (!rcCounts.isEmpty())) {
            err("\tError Results:");
            for (final ObjectPair<ResultCode, Long> 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 SearchRateThread t : threads) {
        t.signalShutdown();
    }
    for (final SearchRateThread t : threads) {
        final ResultCode r = t.waitForShutdown();
        if (resultCode == ResultCode.SUCCESS) {
            resultCode = r;
        }
    }
    return resultCode;
}
Also used : ValuePattern(com.unboundid.util.ValuePattern) ArrayList(java.util.ArrayList) SortKey(com.unboundid.ldap.sdk.controls.SortKey) Semaphore(java.util.concurrent.Semaphore) Control(com.unboundid.ldap.sdk.Control) ServerSideSortRequestControl(com.unboundid.ldap.sdk.controls.ServerSideSortRequestControl) AssertionRequestControl(com.unboundid.ldap.sdk.controls.AssertionRequestControl) AssertionRequestControl(com.unboundid.ldap.sdk.controls.AssertionRequestControl) FormattableColumn(com.unboundid.util.FormattableColumn) ColumnFormatter(com.unboundid.util.ColumnFormatter) OutputFormat(com.unboundid.util.OutputFormat) RateAdjustor(com.unboundid.util.RateAdjustor) IOException(java.io.IOException) LDAPConnection(com.unboundid.ldap.sdk.LDAPConnection) ResultCodeCounter(com.unboundid.util.ResultCodeCounter) ParseException(java.text.ParseException) ArgumentException(com.unboundid.util.args.ArgumentException) LDAPException(com.unboundid.ldap.sdk.LDAPException) IOException(java.io.IOException) CyclicBarrier(java.util.concurrent.CyclicBarrier) ServerSideSortRequestControl(com.unboundid.ldap.sdk.controls.ServerSideSortRequestControl) StringTokenizer(java.util.StringTokenizer) AtomicLong(java.util.concurrent.atomic.AtomicLong) LDAPException(com.unboundid.ldap.sdk.LDAPException) AtomicLong(java.util.concurrent.atomic.AtomicLong) FixedRateBarrier(com.unboundid.util.FixedRateBarrier) ParseException(java.text.ParseException) DereferencePolicy(com.unboundid.ldap.sdk.DereferencePolicy) ResultCode(com.unboundid.ldap.sdk.ResultCode) ObjectPair(com.unboundid.util.ObjectPair) NotNull(com.unboundid.util.NotNull)

Example 2 with ValuePattern

use of com.unboundid.util.ValuePattern in project ldapsdk by pingidentity.

the class AuthRate method doToolProcessing.

/**
 * 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
 * searches.
 *
 * @return  The result code for the processing that was performed.
 */
@Override()
@NotNull()
public ResultCode doToolProcessing() {
    // 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 value patterns for the base DN and filter.
    final ValuePattern dnPattern;
    try {
        dnPattern = new ValuePattern(baseDN.getValue(), seed);
    } catch (final ParseException pe) {
        Debug.debugException(pe);
        err("Unable to parse the base DN value pattern:  ", pe.getMessage());
        return ResultCode.PARAM_ERROR;
    }
    final ValuePattern filterPattern;
    if (filter.isPresent()) {
        try {
            filterPattern = new ValuePattern(filter.getValue(), seed);
        } catch (final ParseException pe) {
            Debug.debugException(pe);
            err("Unable to parse the filter pattern:  ", pe.getMessage());
            return ResultCode.PARAM_ERROR;
        }
    } else {
        filterPattern = null;
    }
    // Get the attributes to return.
    final String[] attrs;
    if (attributes.isPresent()) {
        final List<String> attrList = attributes.getValues();
        attrs = new String[attrList.size()];
        attrList.toArray(attrs);
    } else {
        attrs = StaticUtils.NO_STRINGS;
    }
    // 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;
    }
    // Get the controls to include in bind requests.
    final ArrayList<Control> bindControls = new ArrayList<>(5);
    if (authorizationIdentityRequestControl.isPresent()) {
        bindControls.add(new AuthorizationIdentityRequestControl());
    }
    if (passwordPolicyRequestControl.isPresent()) {
        bindControls.add(new DraftBeheraLDAPPasswordPolicy10RequestControl());
    }
    bindControls.addAll(bindControl.getValues());
    // 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", "Auths/Sec"), new FormattableColumn(12, HorizontalAlignment.RIGHT, "Recent", "Avg Dur ms"), new FormattableColumn(12, HorizontalAlignment.RIGHT, "Recent", "Errors/Sec"), new FormattableColumn(12, HorizontalAlignment.RIGHT, "Overall", "Auths/Sec"), new FormattableColumn(12, HorizontalAlignment.RIGHT, "Overall", "Avg Dur ms"));
    // Create values to use for statistics collection.
    final AtomicLong authCounter = new AtomicLong(0L);
    final AtomicLong errorCounter = new AtomicLong(0L);
    final AtomicLong authDurations = 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 searches.
    final CyclicBarrier barrier = new CyclicBarrier(numThreads.getValue() + 1);
    final AuthRateThread[] threads = new AuthRateThread[numThreads.getValue()];
    for (int i = 0; i < threads.length; i++) {
        final LDAPConnection searchConnection;
        final LDAPConnection bindConnection;
        try {
            searchConnection = getConnection();
            bindConnection = getConnection();
        } catch (final LDAPException le) {
            Debug.debugException(le);
            err("Unable to connect to the directory server:  ", StaticUtils.getExceptionMessage(le));
            return le.getResultCode();
        }
        threads[i] = new AuthRateThread(this, i, searchConnection, bindConnection, dnPattern, scopeArg.getValue(), filterPattern, attrs, userPassword.getValue(), bindOnly.isPresent(), authType.getValue(), searchControl.getValues(), bindControls, runningThreads, barrier, authCounter, authDurations, errorCounter, rcCounter, fixedRateBarrier);
        threads[i].start();
    }
    // Display the table header.
    for (final String headerLine : formatter.getHeaderLines(true)) {
        out(headerLine);
    }
    // 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 lastNumAuths = 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 numAuths;
        final long numErrors;
        final long totalDuration;
        if (warmUp && (remainingWarmUpIntervals > 0)) {
            numAuths = authCounter.getAndSet(0L);
            numErrors = errorCounter.getAndSet(0L);
            totalDuration = authDurations.getAndSet(0L);
        } else {
            numAuths = authCounter.get();
            numErrors = errorCounter.get();
            totalDuration = authDurations.get();
        }
        final long recentNumAuths = numAuths - lastNumAuths;
        final long recentNumErrors = numErrors - lastNumErrors;
        final long recentDuration = totalDuration - lastDuration;
        final double numSeconds = intervalDuration / 1_000_000_000.0d;
        final double recentAuthRate = recentNumAuths / numSeconds;
        final double recentErrorRate = recentNumErrors / numSeconds;
        final double recentAvgDuration;
        if (recentNumAuths > 0L) {
            recentAvgDuration = 1.0d * recentDuration / recentNumAuths / 1_000_000;
        } else {
            recentAvgDuration = 0.0d;
        }
        if (warmUp && (remainingWarmUpIntervals > 0)) {
            out(formatter.formatRow(recentAuthRate, 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 = numAuths / numOverallSeconds;
            final double overallAvgDuration;
            if (numAuths > 0L) {
                overallAvgDuration = 1.0d * totalDuration / numAuths / 1_000_000;
            } else {
                overallAvgDuration = 0.0d;
            }
            out(formatter.formatRow(recentAuthRate, recentAvgDuration, recentErrorRate, overallAuthRate, overallAvgDuration));
            lastNumAuths = numAuths;
            lastNumErrors = numErrors;
            lastDuration = totalDuration;
        }
        final List<ObjectPair<ResultCode, Long>> rcCounts = rcCounter.getCounts(true);
        if ((!suppressErrorsArgument.isPresent()) && (!rcCounts.isEmpty())) {
            err("\tError Results:");
            for (final ObjectPair<ResultCode, Long> 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 AuthRateThread t : threads) {
        final ResultCode r = t.stopRunning();
        if (resultCode == ResultCode.SUCCESS) {
            resultCode = r;
        }
    }
    return resultCode;
}
Also used : ValuePattern(com.unboundid.util.ValuePattern) ArrayList(java.util.ArrayList) AuthorizationIdentityRequestControl(com.unboundid.ldap.sdk.controls.AuthorizationIdentityRequestControl) Control(com.unboundid.ldap.sdk.Control) DraftBeheraLDAPPasswordPolicy10RequestControl(com.unboundid.ldap.sdk.experimental.DraftBeheraLDAPPasswordPolicy10RequestControl) FormattableColumn(com.unboundid.util.FormattableColumn) DraftBeheraLDAPPasswordPolicy10RequestControl(com.unboundid.ldap.sdk.experimental.DraftBeheraLDAPPasswordPolicy10RequestControl) AuthorizationIdentityRequestControl(com.unboundid.ldap.sdk.controls.AuthorizationIdentityRequestControl) ColumnFormatter(com.unboundid.util.ColumnFormatter) OutputFormat(com.unboundid.util.OutputFormat) RateAdjustor(com.unboundid.util.RateAdjustor) IOException(java.io.IOException) LDAPConnection(com.unboundid.ldap.sdk.LDAPConnection) ResultCodeCounter(com.unboundid.util.ResultCodeCounter) ArgumentException(com.unboundid.util.args.ArgumentException) ParseException(java.text.ParseException) LDAPException(com.unboundid.ldap.sdk.LDAPException) IOException(java.io.IOException) CyclicBarrier(java.util.concurrent.CyclicBarrier) AtomicLong(java.util.concurrent.atomic.AtomicLong) LDAPException(com.unboundid.ldap.sdk.LDAPException) AtomicLong(java.util.concurrent.atomic.AtomicLong) FixedRateBarrier(com.unboundid.util.FixedRateBarrier) ParseException(java.text.ParseException) ResultCode(com.unboundid.ldap.sdk.ResultCode) ObjectPair(com.unboundid.util.ObjectPair) NotNull(com.unboundid.util.NotNull)

Example 3 with ValuePattern

use of com.unboundid.util.ValuePattern in project ldapsdk by pingidentity.

the class ModRate method doToolProcessing.

/**
 * 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()
@NotNull()
public ResultCode doToolProcessing() {
    // 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<Control> 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<String> attrList = preReadAttribute.getValues();
        final String[] attrArray = new String[attrList.size()];
        attrList.toArray(attrArray);
        controlList.add(new PreReadRequestControl(attrArray));
    }
    if (postReadAttribute.isPresent()) {
        final List<String> 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(), runningThreads, barrier, modCounter, modDurations, errorCounter, rcCounter, fixedRateBarrier);
        threads[i].start();
    }
    // Display the table header.
    for (final String headerLine : formatter.getHeaderLines(true)) {
        out(headerLine);
    }
    // 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<ObjectPair<ResultCode, Long>> rcCounts = rcCounter.getCounts(true);
        if ((!suppressErrorsArgument.isPresent()) && (!rcCounts.isEmpty())) {
            err("\tError Results:");
            for (final ObjectPair<ResultCode, Long> 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;
}
Also used : ValuePattern(com.unboundid.util.ValuePattern) ArrayList(java.util.ArrayList) PreReadRequestControl(com.unboundid.ldap.sdk.controls.PreReadRequestControl) PermissiveModifyRequestControl(com.unboundid.ldap.sdk.controls.PermissiveModifyRequestControl) Control(com.unboundid.ldap.sdk.Control) AssertionRequestControl(com.unboundid.ldap.sdk.controls.AssertionRequestControl) PostReadRequestControl(com.unboundid.ldap.sdk.controls.PostReadRequestControl) PreReadRequestControl(com.unboundid.ldap.sdk.controls.PreReadRequestControl) PermissiveModifyRequestControl(com.unboundid.ldap.sdk.controls.PermissiveModifyRequestControl) AssertionRequestControl(com.unboundid.ldap.sdk.controls.AssertionRequestControl) FormattableColumn(com.unboundid.util.FormattableColumn) ColumnFormatter(com.unboundid.util.ColumnFormatter) OutputFormat(com.unboundid.util.OutputFormat) RateAdjustor(com.unboundid.util.RateAdjustor) IOException(java.io.IOException) LDAPConnection(com.unboundid.ldap.sdk.LDAPConnection) ResultCodeCounter(com.unboundid.util.ResultCodeCounter) ArgumentException(com.unboundid.util.args.ArgumentException) ParseException(java.text.ParseException) LDAPException(com.unboundid.ldap.sdk.LDAPException) IOException(java.io.IOException) CyclicBarrier(java.util.concurrent.CyclicBarrier) AtomicLong(java.util.concurrent.atomic.AtomicLong) LDAPException(com.unboundid.ldap.sdk.LDAPException) AtomicLong(java.util.concurrent.atomic.AtomicLong) FixedRateBarrier(com.unboundid.util.FixedRateBarrier) ParseException(java.text.ParseException) PostReadRequestControl(com.unboundid.ldap.sdk.controls.PostReadRequestControl) ResultCode(com.unboundid.ldap.sdk.ResultCode) ObjectPair(com.unboundid.util.ObjectPair) NotNull(com.unboundid.util.NotNull)

Example 4 with ValuePattern

use of com.unboundid.util.ValuePattern in project ldapsdk by pingidentity.

the class SearchAndModRate method doToolProcessing.

/**
 * 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
 * searches.
 *
 * @return  The result code for the processing that was performed.
 */
@Override()
@NotNull()
public ResultCode doToolProcessing() {
    // 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 value patterns for the base DN, filter, and proxied authorization
    // DN.
    final ValuePattern dnPattern;
    try {
        dnPattern = new ValuePattern(baseDN.getValue(), seed);
    } catch (final ParseException pe) {
        Debug.debugException(pe);
        err("Unable to parse the base DN value pattern:  ", pe.getMessage());
        return ResultCode.PARAM_ERROR;
    }
    final ValuePattern filterPattern;
    try {
        filterPattern = new ValuePattern(filter.getValue(), seed);
    } catch (final ParseException pe) {
        Debug.debugException(pe);
        err("Unable to parse the filter 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 search requests.
    final ArrayList<Control> searchControls = new ArrayList<>(5);
    if (searchAssertionFilter.isPresent()) {
        searchControls.add(new AssertionRequestControl(searchAssertionFilter.getValue()));
    }
    if (searchControl.isPresent()) {
        searchControls.addAll(searchControl.getValues());
    }
    // Get the set of controls to include in modify requests.
    final ArrayList<Control> modifyControls = new ArrayList<>(5);
    if (modifyAssertionFilter.isPresent()) {
        modifyControls.add(new AssertionRequestControl(modifyAssertionFilter.getValue()));
    }
    if (permissiveModify.isPresent()) {
        modifyControls.add(new PermissiveModifyRequestControl());
    }
    if (preReadAttribute.isPresent()) {
        final List<String> attrList = preReadAttribute.getValues();
        final String[] attrArray = new String[attrList.size()];
        attrList.toArray(attrArray);
        modifyControls.add(new PreReadRequestControl(attrArray));
    }
    if (postReadAttribute.isPresent()) {
        final List<String> attrList = postReadAttribute.getValues();
        final String[] attrArray = new String[attrList.size()];
        attrList.toArray(attrArray);
        modifyControls.add(new PostReadRequestControl(attrArray));
    }
    if (modifyControl.isPresent()) {
        modifyControls.addAll(modifyControl.getValues());
    }
    // Get the attributes to return.
    final String[] returnAttrs;
    if (returnAttributes.isPresent()) {
        final List<String> attrList = returnAttributes.getValues();
        returnAttrs = new String[attrList.size()];
        attrList.toArray(returnAttrs);
    } else {
        returnAttrs = StaticUtils.NO_STRINGS;
    }
    // Get the names of the attributes to modify.
    final String[] modAttrs = new String[modifyAttributes.getValues().size()];
    modifyAttributes.getValues().toArray(modAttrs);
    // Get the character set as a byte array.
    final byte[] charSet = StaticUtils.getBytes(characterSet.getValue());
    // 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", "Searches/Sec"), new FormattableColumn(12, HorizontalAlignment.RIGHT, "Recent", "Srch Dur ms"), new FormattableColumn(12, HorizontalAlignment.RIGHT, "Recent", "Mods/Sec"), new FormattableColumn(12, HorizontalAlignment.RIGHT, "Recent", "Mod Dur ms"), new FormattableColumn(12, HorizontalAlignment.RIGHT, "Recent", "Errors/Sec"), new FormattableColumn(12, HorizontalAlignment.RIGHT, "Overall", "Searches/Sec"), new FormattableColumn(12, HorizontalAlignment.RIGHT, "Overall", "Srch Dur ms"), new FormattableColumn(12, HorizontalAlignment.RIGHT, "Overall", "Mods/Sec"), new FormattableColumn(12, HorizontalAlignment.RIGHT, "Overall", "Mod Dur ms"));
    // Create values to use for statistics collection.
    final AtomicLong searchCounter = new AtomicLong(0L);
    final AtomicLong errorCounter = new AtomicLong(0L);
    final AtomicLong modCounter = new AtomicLong(0L);
    final AtomicLong modDurations = new AtomicLong(0L);
    final AtomicLong searchDurations = 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 searches.
    final Random random = new Random();
    final CyclicBarrier barrier = new CyclicBarrier(numThreads.getValue() + 1);
    final SearchAndModRateThread[] threads = new SearchAndModRateThread[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();
        }
        threads[i] = new SearchAndModRateThread(this, i, connection, dnPattern, scopeArg.getValue(), filterPattern, returnAttrs, modAttrs, valueLength.getValue(), charSet, authzIDPattern, simplePageSize.getValue(), searchControls, modifyControls, iterationsBeforeReconnect.getValue(), random.nextLong(), runningThreads, barrier, searchCounter, modCounter, searchDurations, modDurations, errorCounter, rcCounter, fixedRateBarrier);
        threads[i].start();
    }
    // Display the table header.
    for (final String headerLine : formatter.getHeaderLines(true)) {
        out(headerLine);
    }
    // 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 lastSearchDuration = 0L;
    long lastModDuration = 0L;
    long lastNumErrors = 0L;
    long lastNumSearches = 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 numSearches;
        final long numMods;
        final long numErrors;
        final long totalSearchDuration;
        final long totalModDuration;
        if (warmUp && (remainingWarmUpIntervals > 0)) {
            numSearches = searchCounter.getAndSet(0L);
            numMods = modCounter.getAndSet(0L);
            numErrors = errorCounter.getAndSet(0L);
            totalSearchDuration = searchDurations.getAndSet(0L);
            totalModDuration = modDurations.getAndSet(0L);
        } else {
            numSearches = searchCounter.get();
            numMods = modCounter.get();
            numErrors = errorCounter.get();
            totalSearchDuration = searchDurations.get();
            totalModDuration = modDurations.get();
        }
        final long recentNumSearches = numSearches - lastNumSearches;
        final long recentNumMods = numMods - lastNumMods;
        final long recentNumErrors = numErrors - lastNumErrors;
        final long recentSearchDuration = totalSearchDuration - lastSearchDuration;
        final long recentModDuration = totalModDuration - lastModDuration;
        final double numSeconds = intervalDuration / 1_000_000_000.0d;
        final double recentSearchRate = recentNumSearches / numSeconds;
        final double recentModRate = recentNumMods / numSeconds;
        final double recentErrorRate = recentNumErrors / numSeconds;
        final double recentAvgSearchDuration;
        if (recentNumSearches > 0L) {
            recentAvgSearchDuration = 1.0d * recentSearchDuration / recentNumSearches / 1_000_000;
        } else {
            recentAvgSearchDuration = 0.0d;
        }
        final double recentAvgModDuration;
        if (recentNumMods > 0L) {
            recentAvgModDuration = 1.0d * recentModDuration / recentNumMods / 1_000_000;
        } else {
            recentAvgModDuration = 0.0d;
        }
        if (warmUp && (remainingWarmUpIntervals > 0)) {
            out(formatter.formatRow(recentSearchRate, recentAvgSearchDuration, recentModRate, recentAvgModDuration, recentErrorRate, "warming up", "warming up", "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 overallSearchRate = numSearches / numOverallSeconds;
            final double overallModRate = numMods / numOverallSeconds;
            final double overallAvgSearchDuration;
            if (numSearches > 0L) {
                overallAvgSearchDuration = 1.0d * totalSearchDuration / numSearches / 1_000_000;
            } else {
                overallAvgSearchDuration = 0.0d;
            }
            final double overallAvgModDuration;
            if (numMods > 0L) {
                overallAvgModDuration = 1.0d * totalModDuration / numMods / 1_000_000;
            } else {
                overallAvgModDuration = 0.0d;
            }
            out(formatter.formatRow(recentSearchRate, recentAvgSearchDuration, recentModRate, recentAvgModDuration, recentErrorRate, overallSearchRate, overallAvgSearchDuration, overallModRate, overallAvgModDuration));
            lastNumSearches = numSearches;
            lastNumMods = numMods;
            lastNumErrors = numErrors;
            lastSearchDuration = totalSearchDuration;
            lastModDuration = totalModDuration;
        }
        final List<ObjectPair<ResultCode, Long>> rcCounts = rcCounter.getCounts(true);
        if ((!suppressErrors.isPresent()) && (!rcCounts.isEmpty())) {
            err("\tError Results:");
            for (final ObjectPair<ResultCode, Long> 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 SearchAndModRateThread t : threads) {
        final ResultCode r = t.stopRunning();
        if (resultCode == ResultCode.SUCCESS) {
            resultCode = r;
        }
    }
    return resultCode;
}
Also used : ValuePattern(com.unboundid.util.ValuePattern) ArrayList(java.util.ArrayList) PreReadRequestControl(com.unboundid.ldap.sdk.controls.PreReadRequestControl) PermissiveModifyRequestControl(com.unboundid.ldap.sdk.controls.PermissiveModifyRequestControl) Control(com.unboundid.ldap.sdk.Control) PostReadRequestControl(com.unboundid.ldap.sdk.controls.PostReadRequestControl) AssertionRequestControl(com.unboundid.ldap.sdk.controls.AssertionRequestControl) PreReadRequestControl(com.unboundid.ldap.sdk.controls.PreReadRequestControl) PermissiveModifyRequestControl(com.unboundid.ldap.sdk.controls.PermissiveModifyRequestControl) AssertionRequestControl(com.unboundid.ldap.sdk.controls.AssertionRequestControl) FormattableColumn(com.unboundid.util.FormattableColumn) Random(java.util.Random) ColumnFormatter(com.unboundid.util.ColumnFormatter) OutputFormat(com.unboundid.util.OutputFormat) RateAdjustor(com.unboundid.util.RateAdjustor) IOException(java.io.IOException) LDAPConnection(com.unboundid.ldap.sdk.LDAPConnection) ResultCodeCounter(com.unboundid.util.ResultCodeCounter) ParseException(java.text.ParseException) ArgumentException(com.unboundid.util.args.ArgumentException) LDAPException(com.unboundid.ldap.sdk.LDAPException) IOException(java.io.IOException) CyclicBarrier(java.util.concurrent.CyclicBarrier) AtomicLong(java.util.concurrent.atomic.AtomicLong) LDAPException(com.unboundid.ldap.sdk.LDAPException) AtomicLong(java.util.concurrent.atomic.AtomicLong) FixedRateBarrier(com.unboundid.util.FixedRateBarrier) ParseException(java.text.ParseException) PostReadRequestControl(com.unboundid.ldap.sdk.controls.PostReadRequestControl) ResultCode(com.unboundid.ldap.sdk.ResultCode) ObjectPair(com.unboundid.util.ObjectPair) NotNull(com.unboundid.util.NotNull)

Aggregations

Control (com.unboundid.ldap.sdk.Control)4 LDAPConnection (com.unboundid.ldap.sdk.LDAPConnection)4 LDAPException (com.unboundid.ldap.sdk.LDAPException)4 ResultCode (com.unboundid.ldap.sdk.ResultCode)4 ColumnFormatter (com.unboundid.util.ColumnFormatter)4 FixedRateBarrier (com.unboundid.util.FixedRateBarrier)4 FormattableColumn (com.unboundid.util.FormattableColumn)4 NotNull (com.unboundid.util.NotNull)4 ObjectPair (com.unboundid.util.ObjectPair)4 OutputFormat (com.unboundid.util.OutputFormat)4 RateAdjustor (com.unboundid.util.RateAdjustor)4 ResultCodeCounter (com.unboundid.util.ResultCodeCounter)4 ValuePattern (com.unboundid.util.ValuePattern)4 ArgumentException (com.unboundid.util.args.ArgumentException)4 IOException (java.io.IOException)4 ParseException (java.text.ParseException)4 ArrayList (java.util.ArrayList)4 CyclicBarrier (java.util.concurrent.CyclicBarrier)4 AtomicLong (java.util.concurrent.atomic.AtomicLong)4 AssertionRequestControl (com.unboundid.ldap.sdk.controls.AssertionRequestControl)3