/* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you under the Apache * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.apache.org/licenses/LICENSE-2.0 . */ package util; // access the implementations via names import com.sun.star.uno.UnoRuntime; import java.io.PrintWriter ; import com.sun.star.registry.XRegistryKey ; import com.sun.star.registry.XSimpleRegistry ; import com.sun.star.registry.RegistryKeyType ; import com.sun.star.registry.RegistryValueType ; import com.sun.star.registry.InvalidRegistryException ; import com.sun.star.lang.XMultiServiceFactory ; import com.sun.star.uno.Exception; public class RegistryTools { /** * Creates 'com.sun.star.registry.SimpleRegistry' * service. * @param xMSF Multiservice factory. * @return Service created. */ public static XSimpleRegistry createRegistryService (XMultiServiceFactory xMSF) throws com.sun.star.uno.Exception { Object oInterface = xMSF.createInstance ("com.sun.star.registry.SimpleRegistry"); return UnoRuntime.queryInterface ( XSimpleRegistry.class, oInterface) ; } /** * Opens registry file for reading/writing. If file doesn't * exist a new one created. * @param file Registry file name. * @param xMSF Multiservice factory. * @return Opened registry. */ public static XSimpleRegistry openRegistry (String file, XMultiServiceFactory xMSF) throws com.sun.star.uno.Exception { XSimpleRegistry reg = createRegistryService(xMSF) ; reg.open(file, false, true) ; return reg ; } /** * Compares two registry keys, their names, value * types and values. * return true if key names, value types * and values are equal, else returns false. */ private static boolean compareKeys (XRegistryKey key1, XRegistryKey key2) { if (key1 == null || key2 == null || !key1.isValid() || !key2.isValid()) return false ; String keyName1 = getShortKeyName(key1.getKeyName()) ; String keyName2 = getShortKeyName(key2.getKeyName()) ; if (!keyName1.equals(keyName2)) return false ; try { if (key1.getValueType() != key2.getValueType()) return false ; } catch (InvalidRegistryException e) { return false ; } RegistryValueType type ; try { type = key1.getValueType() ; if (type.equals(RegistryValueType.ASCII)) { if (!key1.getAsciiValue().equals(key2.getAsciiValue())) return false ; } else if (type.equals(RegistryValueType.STRING)) { if (!key1.getStringValue().equals(key2.getStringValue())) return false ; } else if (type.equals(RegistryValueType.LONG)) { if (key1.getLongValue() != key2.getLongValue()) return false ; } else if (type.equals(RegistryValueType.BINARY)) { byte[] bin1 = key1.getBinaryValue() ; byte[] bin2 = key2.getBinaryValue() ; if (bin1.length != bin2.length) return false ; for (int i = 0; i < bin1.length; i++) if (bin1[i] != bin2[i]) return false ; } else if (type.equals(RegistryValueType.ASCIILIST)) { String[] list1 = key1.getAsciiListValue() ; String[] list2 = key2.getAsciiListValue() ; if (list1.length != list2.length) return false ; for (int i = 0; i < list1.length; i++) if (!list1[i].equals(list2[i])) return false ; } else if (type.equals(RegistryValueType.STRINGLIST)) { String[] list1 = key1.getStringListValue() ; String[] list2 = key2.getStringListValue() ; if (list1.length != list2.length) return false ; for (int i = 0; i < list1.length; i++) if (!list1[i].equals(list2[i])) return false ; } else if (type.equals(RegistryValueType.LONGLIST)) { int[] list1 = key1.getLongListValue() ; int[] list2 = key2.getLongListValue() ; if (list1.length != list2.length) return false ; for (int i = 0; i < list1.length; i++) if (list1[i] != list2[i]) return false ; } } catch (Exception e) { return false ; } return true ; } /** * Gets name of the key relative to its parent. * For example if full name of key is '/key1/subkey' * short key name is 'subkey' * @param keyName Full key name. * @return Short key name. */ private static String getShortKeyName(String keyName) { if (keyName == null) return null ; int idx = keyName.lastIndexOf('/') ; if (idx < 0) return keyName ; else return keyName.substring(idx + 1) ; } /** * Compare all child keys. * @param compareRoot If true method also * compare root keys, if false it begins recursive * comparing from children of root keys. * @return true if keys and their sub keys are equal. */ private static boolean compareKeyTrees (XRegistryKey tree1, XRegistryKey tree2, boolean compareRoot) { if (compareRoot && !compareKeys(tree1, tree2)) return false ; try { String[] keyNames1 = tree1.getKeyNames() ; String[] keyNames2 = tree2.getKeyNames() ; if (keyNames1 == null && keyNames2 == null) return true ; if (keyNames1 == null || keyNames2 == null || keyNames2.length != keyNames1.length) return false ; for (int i = 0; i < keyNames1.length; i++) { String keyName = getShortKeyName(keyNames1[i]) ; XRegistryKey key2 = tree2.openKey(keyName) ; if (key2 == null) // key with the same name doesn't exist in the second tree return false ; if (!tree1.getKeyType(keyName).equals( tree2.getKeyType(keyName))) return false ; if (tree1.getKeyType(keyName).equals( RegistryKeyType.LINK)) { if (!getShortKeyName(tree1.getLinkTarget(keyName)).equals( getShortKeyName(tree2.getLinkTarget(keyName)))) return false ; } else { if (!compareKeyTrees(tree1.openKey(keyName), tree2.openKey(keyName), true)) return false ; } } } catch (InvalidRegistryException e) { return false ; } return true ; } /** * Compare keys specified and all their child keys. * @return true if keys and their sub keys are equal. */ public static boolean compareKeyTrees (XRegistryKey tree1, XRegistryKey tree2) { return compareKeyTrees(tree1, tree2, false) ; } /** * Prints to a specified output about all keys and subkeys information * (key name, type, value, link target, attributes) recursively. * @param reg Registry for which information is needed. * @param out Output stream. */ public static void printRegistryInfo(XSimpleRegistry reg, PrintWriter out) { try { printRegistryInfo(reg.getRootKey(), out) ; } catch (com.sun.star.registry.InvalidRegistryException e) { out.println("!!! Can't open root registry key for info printing") ; } } /** * Prints to a specified output about all keys and subkeys information * (key name, type, value, link target, attributes) recursively. * @param root Key for which subkeys (and further) information is required. * @param out Output stream. */ public static void printRegistryInfo(XRegistryKey root, PrintWriter out) { if (root == null) { out.println("/(null)") ; return ; } out.println("/") ; try { printTreeInfo(root, out, " ") ; } catch (com.sun.star.registry.InvalidRegistryException e) { out.println("Exception accessing registry :") ; e.printStackTrace(out) ; } } private static void printTreeInfo(XRegistryKey key, PrintWriter out, String margin) throws com.sun.star.registry.InvalidRegistryException { String[] subKeys = key.getKeyNames() ; if (subKeys == null || subKeys.length == 0) return ; for (int i = 0; i < subKeys.length; i++) { printKeyInfo(key, subKeys[i], out, margin) ; XRegistryKey subKey = key.openKey (getShortKeyName(subKeys[i])) ; printTreeInfo(subKey, out, margin + " ") ; subKey.closeKey() ; } } private static void printKeyInfo(XRegistryKey parentKey, String keyName, PrintWriter out, String margin) throws com.sun.star.registry.InvalidRegistryException { out.print(margin) ; keyName = getShortKeyName(keyName) ; XRegistryKey key = parentKey.openKey(keyName) ; if (key != null) out.print("/" + getShortKeyName(key.getKeyName()) + " ") ; else { out.println("(null)") ; return ; } if (!key.isValid()) { out.println("(not valid)") ; return ; } if (key.isReadOnly()) { out.print("(read only) ") ; } if (parentKey.getKeyType(keyName) == RegistryKeyType.LINK) { out.println("(link to " + parentKey.getLinkTarget(keyName) + ")") ; return ; } RegistryValueType type ; try { type = key.getValueType() ; if (type.equals(RegistryValueType.ASCII)) { out.println("[ASCII] = '" + key.getAsciiValue() + "'") ; } else if (type.equals(RegistryValueType.STRING)) { out.println("[STRING] = '" + key.getStringValue() + "'") ; } else if (type.equals(RegistryValueType.LONG)) { out.println("[LONG] = " + key.getLongValue()) ; } else if (type.equals(RegistryValueType.BINARY)) { out.print("[BINARY] = {") ; byte[] bin = key.getBinaryValue() ; for (int i = 0; i < bin.length; i++) out.print(bin[i] + ",") ; out.println("}") ; } else if (type.equals(RegistryValueType.ASCIILIST)) { out.print("[ASCIILIST] = {") ; String[] list = key.getAsciiListValue() ; for (int i = 0; i < list.length; i++) out.print("'" + list[i] + "',") ; out.println("}") ; } else if (type.equals(RegistryValueType.STRINGLIST)) { out.print("[STRINGLIST] = {") ; String[] list = key.getStringListValue() ; for (int i = 0; i < list.length; i++) out.print("'" + list[i] + "',") ; out.println("}") ; } else if (type.equals(RegistryValueType.LONGLIST)) { out.print("[LONGLIST] = {") ; int[] list = key.getLongListValue() ; for (int i = 0; i < list.length; i++) out.print(list[i] + ",") ; out.println("}") ; } else { out.println("") ; } } catch (com.sun.star.uno.Exception e) { out.println("Exception occurred : ") ; e.printStackTrace(out) ; } finally { key.closeKey() ; } } }