/** {@inheritDoc} */ @Override public boolean isMenuDrivenMode() { return !task.isPresent() && !cancel.isPresent() && !summary.isPresent() && !noPrompt.isPresent(); }
/** {@inheritDoc} */ @Override public void addTaskAttributes(List<RawAttribute> attributes) { // Required attributes attributes.add(new LDAPAttribute(ATTR_TASK_EXPORT_LDIF_FILE, ldifFile.getValue())); attributes.add(new LDAPAttribute(ATTR_TASK_EXPORT_BACKEND_ID, backendID.getValue())); // Optional attributes addAttribute(attributes, ATTR_TASK_EXPORT_APPEND_TO_LDIF, appendToLDIF); addAttribute(attributes, ATTR_TASK_EXPORT_COMPRESS_LDIF, compressLDIF); addAttribute(attributes, ATTR_TASK_EXPORT_ENCRYPT_LDIF, encryptLDIF); addAttribute(attributes, ATTR_TASK_EXPORT_SIGN_HASH, signHash); addAttribute( attributes, ATTR_TASK_EXPORT_INCLUDE_ATTRIBUTE, includeAttributeStrings.getValues()); addAttribute( attributes, ATTR_TASK_EXPORT_EXCLUDE_ATTRIBUTE, excludeAttributeStrings.getValues()); addAttribute(attributes, ATTR_TASK_EXPORT_INCLUDE_FILTER, includeFilterStrings.getValues()); addAttribute(attributes, ATTR_TASK_EXPORT_EXCLUDE_FILTER, excludeFilterStrings.getValues()); addAttribute(attributes, ATTR_TASK_EXPORT_INCLUDE_BRANCH, includeBranchStrings.getValues()); addAttribute(attributes, ATTR_TASK_EXPORT_EXCLUDE_BRANCH, excludeBranchStrings.getValues()); addAttribute(attributes, ATTR_TASK_EXPORT_WRAP_COLUMN, wrapColumn); if (excludeOperationalAttrs.isPresent()) { attributes.add(new LDAPAttribute(ATTR_TASK_EXPORT_INCLUDE_OPERATIONAL_ATTRIBUTES, "false")); } }
/** * Commodity method that retrieves the password value analyzing the contents of a string argument * and of a file based argument. It assumes that the arguments have already been parsed and * validated. If the string is a dash, or no password is available, it will prompt for it on the * command line. * * @param bindPassword the string argument for the password. * @param bindPasswordFile the file based argument for the password. * @param bindDNValue the string value for the bindDN. * @param out stream to write message. * @param err stream to write error message. * @return the password value. * @throws ClientException if the password cannot be read */ public static String getPasswordValue( StringArgument bindPassword, FileBasedArgument bindPasswordFile, String bindDNValue, PrintStream out, PrintStream err) throws ClientException { String bindPasswordValue = bindPassword.getValue(); if ("-".equals(bindPasswordValue) || (!bindPasswordFile.isPresent() && bindDNValue != null && bindPasswordValue == null)) { // read the password from the stdin. out.print(INFO_LDAPAUTH_PASSWORD_PROMPT.get(bindDNValue)); char[] pwChars = ConsoleApplication.readPassword(); // As per rfc 4513(section-5.1.2) a client should avoid sending // an empty password to the server. while (pwChars.length == 0) { printWrappedText(err, INFO_LDAPAUTH_NON_EMPTY_PASSWORD.get()); out.print(INFO_LDAPAUTH_PASSWORD_PROMPT.get(bindDNValue)); pwChars = ConsoleApplication.readPassword(); } return new String(pwChars); } else if (bindPasswordValue == null) { // Read from file if it exists. return bindPasswordFile.getValue(); } return bindPasswordValue; }
private Set<AttributeType> toAttributeTypes(StringArgument attributeArg) { if (attributeArg == null) { return null; } Set<AttributeType> results = new HashSet<>(); for (String attrName : attributeArg.getValues()) { results.add(DirectoryServer.getAttributeTypeOrDefault(attrName.toLowerCase(), attrName)); } return results; }
/** * Commodity method that retrieves the password value analyzing the contents of a string argument * and of a file based argument. It assumes that the arguments have already been parsed and * validated. If the string is a dash, or no password is available, it will prompt for it on the * command line. * * @param bindPwdArg the string argument for the password. * @param bindPwdFileArg the file based argument for the password. * @param bindDnArg the string argument for the bindDN. * @param out stream to write message. * @param err stream to write error message. * @return the password value. */ public static String getPasswordValue( StringArgument bindPwdArg, FileBasedArgument bindPwdFileArg, StringArgument bindDnArg, PrintStream out, PrintStream err) { try { return getPasswordValue(bindPwdArg, bindPwdFileArg, bindDnArg.getValue(), out, err); } catch (Exception ex) { printWrappedText(err, ex.getMessage()); return null; } }
/** * Processes the command-line arguments and invokes the export process. * * @param args The command-line arguments provided to this program. * @param initializeServer Indicates whether to initialize the server. * @return The error code. */ public int process(String[] args, boolean initializeServer) { if (initializeServer) { DirectoryServer.bootstrapClient(); } JDKLogging.disableLogging(); // Create the command-line argument parser for use with this program. LDAPConnectionArgumentParser argParser = new LDAPConnectionArgumentParser( "org.opends.server.tools.TaskInfo", INFO_TASKINFO_TOOL_DESCRIPTION.get(), false, null, alwaysSSL); argParser.setShortToolDescription(REF_SHORT_DESC_MANAGE_TASKS.get()); // Initialize all the command-line argument types and register them with the // parser. try { StringArgument propertiesFileArgument = new StringArgument( "propertiesFilePath", null, OPTION_LONG_PROP_FILE_PATH, false, false, true, INFO_PROP_FILE_PATH_PLACEHOLDER.get(), null, null, INFO_DESCRIPTION_PROP_FILE_PATH.get()); argParser.addArgument(propertiesFileArgument); argParser.setFilePropertiesArgument(propertiesFileArgument); BooleanArgument noPropertiesFileArgument = new BooleanArgument( "noPropertiesFileArgument", null, OPTION_LONG_NO_PROP_FILE, INFO_DESCRIPTION_NO_PROP_FILE.get()); argParser.addArgument(noPropertiesFileArgument); argParser.setNoPropertiesFileArgument(noPropertiesFileArgument); task = new StringArgument( "info", 'i', "info", false, true, INFO_TASK_ID_PLACEHOLDER.get(), INFO_TASKINFO_TASK_ARG_DESCRIPTION.get()); argParser.addArgument(task); cancel = new StringArgument( "cancel", 'c', "cancel", false, true, INFO_TASK_ID_PLACEHOLDER.get(), INFO_TASKINFO_TASK_ARG_CANCEL.get()); argParser.addArgument(cancel); summary = new BooleanArgument( "summary", 's', "summary", INFO_TASKINFO_SUMMARY_ARG_DESCRIPTION.get()); argParser.addArgument(summary); noPrompt = CommonArguments.getNoPrompt(); argParser.addArgument(noPrompt); BooleanArgument displayUsage = CommonArguments.getShowUsage(); argParser.addArgument(displayUsage); argParser.setUsageArgument(displayUsage); } catch (ArgumentException ae) { LocalizableMessage message = ERR_CANNOT_INITIALIZE_ARGS.get(ae.getMessage()); println(message); return 1; } try { argParser.getArguments().initArgumentsWithConfiguration(); } catch (ConfigException ce) { // Ignore. } // Parse the command-line arguments provided to this program. try { argParser.parseArguments(args); StaticUtils.checkOnlyOneArgPresent(task, summary, cancel); } catch (ArgumentException ae) { LocalizableMessage message = ERR_ERROR_PARSING_ARGS.get(ae.getMessage()); println(message); println(argParser.getUsageMessage()); return 1; } if (!argParser.usageOrVersionDisplayed()) { // Checks the version - if upgrade required, the tool is unusable try { BuildVersion.checkVersionMismatch(); } catch (InitializationException e) { println(e.getMessageObject()); return 1; } try { LDAPConnectionConsoleInteraction ui = new LDAPConnectionConsoleInteraction(this, argParser.getArguments()); taskClient = new TaskClient(argParser.connect(ui, getOutputStream(), getErrorStream())); if (isMenuDrivenMode()) { // Keep prompting the user until they specify quit of // there is a fatal exception while (true) { getOutputStream().println(); Menu<Void> menu = getSummaryMenu(); MenuResult<Void> result = menu.run(); if (result.isQuit()) { return 0; } } } else if (task.isPresent()) { getOutputStream().println(); MenuResult<TaskEntry> r = new PrintTaskInfo(task.getValue()).invoke(this); if (r.isAgain()) { return 1; } } else if (summary.isPresent()) { getOutputStream().println(); printSummaryTable(); } else if (cancel.isPresent()) { MenuResult<TaskEntry> r = new CancelTask(cancel.getValue()).invoke(this); if (r.isAgain()) { return 1; } } else if (!isInteractive()) { // no-prompt option getOutputStream().println(); printSummaryTable(); return 0; } } catch (LDAPConnectionException lce) { println(INFO_TASKINFO_LDAP_EXCEPTION.get(lce.getMessageObject())); return 1; } catch (Exception e) { println(LocalizableMessage.raw(StaticUtils.getExceptionMessage(e))); return 1; } } return 0; }
/** {@inheritDoc} */ @Override protected int processLocal(boolean initializeServer, PrintStream out, PrintStream err) { // Perform the initial bootstrap of the Directory Server and process the // configuration. DirectoryServer directoryServer = DirectoryServer.getInstance(); if (initializeServer) { try { DirectoryServer.bootstrapClient(); DirectoryServer.initializeJMX(); } catch (Exception e) { printWrappedText(err, ERR_SERVER_BOOTSTRAP_ERROR.get(getExceptionMessage(e))); return 1; } try { directoryServer.initializeConfiguration(configClass.getValue(), configFile.getValue()); } catch (InitializationException ie) { printWrappedText(err, ERR_CANNOT_LOAD_CONFIG.get(ie.getMessage())); return 1; } catch (Exception e) { printWrappedText(err, ERR_CANNOT_LOAD_CONFIG.get(getExceptionMessage(e))); return 1; } // Initialize the Directory Server schema elements. try { directoryServer.initializeSchema(); } catch (ConfigException | InitializationException e) { printWrappedText(err, ERR_CANNOT_LOAD_SCHEMA.get(e.getMessage())); return 1; } catch (Exception e) { printWrappedText(err, ERR_CANNOT_LOAD_SCHEMA.get(getExceptionMessage(e))); return 1; } // Initialize the Directory Server core configuration. try { CoreConfigManager coreConfigManager = new CoreConfigManager(directoryServer.getServerContext()); coreConfigManager.initializeCoreConfig(); } catch (ConfigException | InitializationException e) { printWrappedText(err, ERR_CANNOT_INITIALIZE_CORE_CONFIG.get(e.getMessage())); return 1; } catch (Exception e) { printWrappedText(err, ERR_CANNOT_INITIALIZE_CORE_CONFIG.get(getExceptionMessage(e))); return 1; } // Initialize the Directory Server crypto manager. try { directoryServer.initializeCryptoManager(); } catch (ConfigException | InitializationException e) { printWrappedText(err, ERR_CANNOT_INITIALIZE_CRYPTO_MANAGER.get(e.getMessage())); return 1; } catch (Exception e) { printWrappedText(err, ERR_CANNOT_INITIALIZE_CRYPTO_MANAGER.get(getExceptionMessage(e))); return 1; } try { ErrorLogPublisher errorLogPublisher = TextErrorLogPublisher.getToolStartupTextErrorPublisher(new TextWriter.STREAM(out)); ErrorLogger.getInstance().addLogPublisher(errorLogPublisher); DebugLogger.getInstance().addPublisherIfRequired(new TextWriter.STREAM(out)); } catch (Exception e) { err.println("Error installing the custom error logger: " + stackTraceToSingleLineString(e)); } // Make sure that the Directory Server plugin initialization is performed. try { HashSet<PluginType> pluginTypes = new HashSet<>(1); pluginTypes.add(PluginType.LDIF_EXPORT); directoryServer.initializePlugins(pluginTypes); } catch (ConfigException | InitializationException e) { printWrappedText(err, ERR_LDIFEXPORT_CANNOT_INITIALIZE_PLUGINS.get(e.getMessage())); return 1; } catch (Exception e) { printWrappedText(err, ERR_LDIFEXPORT_CANNOT_INITIALIZE_PLUGINS.get(getExceptionMessage(e))); return 1; } } // See if there were any user-defined sets of include/exclude attributes or // filters. If so, then process them. Set<AttributeType> excludeAttributes = toAttributeTypes(excludeAttributeStrings); Set<AttributeType> includeAttributes = toAttributeTypes(includeAttributeStrings); ArrayList<SearchFilter> excludeFilters; if (excludeFilterStrings == null) { excludeFilters = null; } else { excludeFilters = new ArrayList<>(); for (String filterString : excludeFilterStrings.getValues()) { try { excludeFilters.add(SearchFilter.createFilterFromString(filterString)); } catch (DirectoryException de) { logger.error( ERR_LDIFEXPORT_CANNOT_PARSE_EXCLUDE_FILTER, filterString, de.getMessageObject()); return 1; } catch (Exception e) { logger.error( ERR_LDIFEXPORT_CANNOT_PARSE_EXCLUDE_FILTER, filterString, getExceptionMessage(e)); return 1; } } } ArrayList<SearchFilter> includeFilters; if (includeFilterStrings == null) { includeFilters = null; } else { includeFilters = new ArrayList<>(); for (String filterString : includeFilterStrings.getValues()) { try { includeFilters.add(SearchFilter.createFilterFromString(filterString)); } catch (DirectoryException de) { logger.error( ERR_LDIFEXPORT_CANNOT_PARSE_INCLUDE_FILTER, filterString, de.getMessageObject()); return 1; } catch (Exception e) { logger.error( ERR_LDIFEXPORT_CANNOT_PARSE_INCLUDE_FILTER, filterString, getExceptionMessage(e)); return 1; } } } // Get information about the backends defined in the server. Iterate // through them, finding the one backend that should be used for the export, // and also finding backends with subordinate base DNs that should be // excluded from the export. Backend backend = null; List<DN> baseDNList = null; List<DN> defaultIncludeBranches = null; ArrayList<DN> excludeBranches = null; ArrayList<Backend> backendList = new ArrayList<>(); ArrayList<BackendCfg> entryList = new ArrayList<>(); ArrayList<List<DN>> dnList = new ArrayList<>(); BackendToolUtils.getBackends(backendList, entryList, dnList); int numBackends = backendList.size(); for (int i = 0; i < numBackends; i++) { Backend b = backendList.get(i); if (!backendID.getValue().equals(b.getBackendID())) { continue; } if (backend == null) { backend = b; baseDNList = dnList.get(i); defaultIncludeBranches = dnList.get(i); } else { logger.error(ERR_LDIFEXPORT_MULTIPLE_BACKENDS_FOR_ID, backendID.getValue()); return 1; } } if (backend == null) { logger.error(ERR_LDIFEXPORT_NO_BACKENDS_FOR_ID, backendID.getValue()); return 1; } else if (!backend.supports(BackendOperation.RESTORE)) { logger.error(ERR_LDIFEXPORT_CANNOT_EXPORT_BACKEND, backendID.getValue()); return 1; } if (excludeBranchStrings.isPresent()) { excludeBranches = new ArrayList<>(); for (String s : excludeBranchStrings.getValues()) { DN excludeBranch; try { excludeBranch = DN.valueOf(s); } catch (DirectoryException de) { logger.error(ERR_LDIFEXPORT_CANNOT_DECODE_EXCLUDE_BASE, s, de.getMessageObject()); return 1; } catch (Exception e) { logger.error(ERR_LDIFEXPORT_CANNOT_DECODE_EXCLUDE_BASE, s, getExceptionMessage(e)); return 1; } if (!excludeBranches.contains(excludeBranch)) { excludeBranches.add(excludeBranch); } } } List<DN> includeBranches; if (includeBranchStrings.isPresent()) { includeBranches = new ArrayList<>(); for (String s : includeBranchStrings.getValues()) { DN includeBranch; try { includeBranch = DN.valueOf(s); } catch (DirectoryException de) { logger.error(ERR_LDIFIMPORT_CANNOT_DECODE_INCLUDE_BASE, s, de.getMessageObject()); return 1; } catch (Exception e) { logger.error(ERR_LDIFIMPORT_CANNOT_DECODE_INCLUDE_BASE, s, getExceptionMessage(e)); return 1; } if (!Backend.handlesEntry(includeBranch, defaultIncludeBranches, excludeBranches)) { logger.error(ERR_LDIFEXPORT_INVALID_INCLUDE_BASE, s, backendID.getValue()); return 1; } includeBranches.add(includeBranch); } } else { includeBranches = defaultIncludeBranches; } // Create the LDIF export configuration to use when reading the LDIF. ExistingFileBehavior existingBehavior; if (appendToLDIF.isPresent()) { existingBehavior = ExistingFileBehavior.APPEND; } else { existingBehavior = ExistingFileBehavior.OVERWRITE; } LDIFExportConfig exportConfig = new LDIFExportConfig(ldifFile.getValue(), existingBehavior); exportConfig.setCompressData(compressLDIF.isPresent()); exportConfig.setEncryptData(encryptLDIF.isPresent()); exportConfig.setExcludeAttributes(excludeAttributes); exportConfig.setExcludeBranches(excludeBranches); exportConfig.setExcludeFilters(excludeFilters); exportConfig.setIncludeAttributes(includeAttributes); exportConfig.setIncludeBranches(includeBranches); exportConfig.setIncludeFilters(includeFilters); exportConfig.setSignHash(signHash.isPresent()); exportConfig.setIncludeOperationalAttributes(!excludeOperationalAttrs.isPresent()); // FIXME -- Should this be conditional? exportConfig.setInvokeExportPlugins(true); try { exportConfig.setWrapColumn(wrapColumn.getIntValue()); } catch (ArgumentException ae) { logger.error(ERR_LDIFEXPORT_CANNOT_DECODE_WRAP_COLUMN_AS_INTEGER, wrapColumn.getValue()); return 1; } // Get the set of base DNs for the backend as an array. DN[] baseDNs = new DN[baseDNList.size()]; baseDNList.toArray(baseDNs); // Acquire a shared lock for the backend. try { String lockFile = LockFileManager.getBackendLockFileName(backend); StringBuilder failureReason = new StringBuilder(); if (!LockFileManager.acquireSharedLock(lockFile, failureReason)) { logger.error(ERR_LDIFEXPORT_CANNOT_LOCK_BACKEND, backend.getBackendID(), failureReason); return 1; } } catch (Exception e) { logger.error( ERR_LDIFEXPORT_CANNOT_LOCK_BACKEND, backend.getBackendID(), getExceptionMessage(e)); return 1; } boolean errorOccurred = false; // Launch the export. try { backend.exportLDIF(exportConfig); } catch (DirectoryException de) { logger.error(ERR_LDIFEXPORT_ERROR_DURING_EXPORT, de.getMessageObject()); errorOccurred = true; } catch (Exception e) { logger.error(ERR_LDIFEXPORT_ERROR_DURING_EXPORT, getExceptionMessage(e)); errorOccurred = true; } // Release the shared lock on the backend. try { String lockFile = LockFileManager.getBackendLockFileName(backend); StringBuilder failureReason = new StringBuilder(); if (!LockFileManager.releaseLock(lockFile, failureReason)) { logger.warn(WARN_LDIFEXPORT_CANNOT_UNLOCK_BACKEND, backend.getBackendID(), failureReason); } } catch (Exception e) { logger.warn( WARN_LDIFEXPORT_CANNOT_UNLOCK_BACKEND, backend.getBackendID(), getExceptionMessage(e)); } // Clean up after the export by closing the export config. exportConfig.close(); return !errorOccurred ? 0 : 1; }
private int process( String[] args, boolean initializeServer, OutputStream outStream, OutputStream errStream) { PrintStream out = NullOutputStream.wrapOrNullStream(outStream); PrintStream err = NullOutputStream.wrapOrNullStream(errStream); JDKLogging.disableLogging(); // Create the command-line argument parser for use with this program. LDAPConnectionArgumentParser argParser = createArgParser( "org.opends.server.tools.ExportLDIF", INFO_LDIFEXPORT_TOOL_DESCRIPTION.get()); argParser.setShortToolDescription(REF_SHORT_DESC_EXPORT_LDIF.get()); // Initialize all the command-line argument types and register them with the // parser. try { configClass = new StringArgument( "configclass", OPTION_SHORT_CONFIG_CLASS, OPTION_LONG_CONFIG_CLASS, true, false, true, INFO_CONFIGCLASS_PLACEHOLDER.get(), ConfigFileHandler.class.getName(), null, INFO_DESCRIPTION_CONFIG_CLASS.get()); configClass.setHidden(true); argParser.addArgument(configClass); configFile = new StringArgument( "configfile", 'f', "configFile", true, false, true, INFO_CONFIGFILE_PLACEHOLDER.get(), null, null, INFO_DESCRIPTION_CONFIG_FILE.get()); configFile.setHidden(true); argParser.addArgument(configFile); ldifFile = new StringArgument( "ldiffile", OPTION_SHORT_LDIF_FILE, OPTION_LONG_LDIF_FILE, true, false, true, INFO_LDIFFILE_PLACEHOLDER.get(), null, null, INFO_LDIFEXPORT_DESCRIPTION_LDIF_FILE.get()); argParser.addArgument(ldifFile); appendToLDIF = new BooleanArgument( "appendldif", 'a', "appendToLDIF", INFO_LDIFEXPORT_DESCRIPTION_APPEND_TO_LDIF.get()); argParser.addArgument(appendToLDIF); backendID = new StringArgument( "backendid", 'n', "backendID", true, false, true, INFO_BACKENDNAME_PLACEHOLDER.get(), null, null, INFO_LDIFEXPORT_DESCRIPTION_BACKEND_ID.get()); argParser.addArgument(backendID); includeBranchStrings = new StringArgument( "includebranch", 'b', "includeBranch", false, true, true, INFO_BRANCH_DN_PLACEHOLDER.get(), null, null, INFO_LDIFEXPORT_DESCRIPTION_INCLUDE_BRANCH.get()); argParser.addArgument(includeBranchStrings); excludeBranchStrings = new StringArgument( "excludebranch", 'B', "excludeBranch", false, true, true, INFO_BRANCH_DN_PLACEHOLDER.get(), null, null, INFO_LDIFEXPORT_DESCRIPTION_EXCLUDE_BRANCH.get()); argParser.addArgument(excludeBranchStrings); includeAttributeStrings = new StringArgument( "includeattribute", 'i', "includeAttribute", false, true, true, INFO_ATTRIBUTE_PLACEHOLDER.get(), null, null, INFO_LDIFEXPORT_DESCRIPTION_INCLUDE_ATTRIBUTE.get()); argParser.addArgument(includeAttributeStrings); excludeAttributeStrings = new StringArgument( "excludeattribute", 'e', "excludeAttribute", false, true, true, INFO_ATTRIBUTE_PLACEHOLDER.get(), null, null, INFO_LDIFEXPORT_DESCRIPTION_EXCLUDE_ATTRIBUTE.get()); argParser.addArgument(excludeAttributeStrings); includeFilterStrings = new StringArgument( "includefilter", 'I', "includeFilter", false, true, true, INFO_FILTER_PLACEHOLDER.get(), null, null, INFO_LDIFEXPORT_DESCRIPTION_INCLUDE_FILTER.get()); argParser.addArgument(includeFilterStrings); excludeFilterStrings = new StringArgument( "excludefilter", 'E', "excludeFilter", false, true, true, INFO_FILTER_PLACEHOLDER.get(), null, null, INFO_LDIFEXPORT_DESCRIPTION_EXCLUDE_FILTER.get()); argParser.addArgument(excludeFilterStrings); excludeOperationalAttrs = new BooleanArgument( "excludeoperational", 'O', "excludeOperational", INFO_LDIFEXPORT_DESCRIPTION_EXCLUDE_OPERATIONAL.get()); argParser.addArgument(excludeOperationalAttrs); wrapColumn = new IntegerArgument( "wrapcolumn", null, "wrapColumn", false, false, true, INFO_WRAP_COLUMN_PLACEHOLDER.get(), 0, null, true, 0, false, 0, INFO_LDIFEXPORT_DESCRIPTION_WRAP_COLUMN.get()); argParser.addArgument(wrapColumn); compressLDIF = new BooleanArgument( "compressldif", OPTION_SHORT_COMPRESS, OPTION_LONG_COMPRESS, INFO_LDIFEXPORT_DESCRIPTION_COMPRESS_LDIF.get()); argParser.addArgument(compressLDIF); encryptLDIF = new BooleanArgument( "encryptldif", 'y', "encryptLDIF", INFO_LDIFEXPORT_DESCRIPTION_ENCRYPT_LDIF.get()); encryptLDIF.setHidden(true); // See issue #27 argParser.addArgument(encryptLDIF); signHash = new BooleanArgument( "signhash", 's', "signHash", INFO_LDIFEXPORT_DESCRIPTION_SIGN_HASH.get()); signHash.setHidden(true); // See issue #28 argParser.addArgument(signHash); displayUsage = CommonArguments.getShowUsage(); argParser.addArgument(displayUsage); argParser.setUsageArgument(displayUsage); } catch (ArgumentException ae) { printWrappedText(err, ERR_CANNOT_INITIALIZE_ARGS.get(ae.getMessage())); return 1; } // Init the default values so that they can appear also on the usage. try { argParser.getArguments().initArgumentsWithConfiguration(); } catch (ConfigException ce) { // Ignore. } // Parse the command-line arguments provided to this program. try { argParser.parseArguments(args); validateTaskArgs(); } catch (ArgumentException ae) { printWrappedText(err, ERR_ERROR_PARSING_ARGS.get(ae.getMessage())); err.println(argParser.getUsage()); return 1; } catch (ClientException ce) { // No need to display the usage since the problem comes with a provided value. printWrappedText(err, ce.getMessageObject()); return 1; } // If we should just display usage or version information, // then print it and exit. if (argParser.usageOrVersionDisplayed()) { return 0; } // Checks the version - if upgrade required, the tool is unusable try { checkVersion(); } catch (InitializationException e) { printWrappedText(err, e.getMessage()); return 1; } return process(argParser, initializeServer, out, err); }