Jak można czytać / zapisywać w rejestrze systemu Windows za pomocą Java?
Jak można czytać / zapisywać w rejestrze systemu Windows za pomocą Java?
Odpowiedzi:
Wiem, że to pytanie jest stare, ale jest to pierwszy wynik wyszukiwania w Google do „java read / write to register”. Niedawno znalazłem ten niesamowity fragment kodu, który:
To jest czysty kod Java.
Wykorzystuje refleksję do pracy, faktycznie uzyskując dostęp do prywatnych metod w java.util.prefs.Preferences
klasie. Elementy wewnętrzne tej klasy są skomplikowane, ale sama klasa jest bardzo łatwa w użyciu.
Na przykład poniższy kod uzyskuje dokładną dystrybucję systemu Windows z rejestru :
String value = WinRegistry.readString (
WinRegistry.HKEY_LOCAL_MACHINE, //HKEY
"SOFTWARE\\Microsoft\\Windows NT\\CurrentVersion", //Key
"ProductName"); //ValueName
System.out.println("Windows Distribution = " + value);
Oto oryginalna klasa. Wystarczy skopiować i wkleić, a powinno działać:
import java.lang.reflect.InvocationTargetException;
import java.lang.reflect.Method;
import java.util.HashMap;
import java.util.Map;
import java.util.ArrayList;
import java.util.List;
import java.util.prefs.Preferences;
public class WinRegistry {
public static final int HKEY_CURRENT_USER = 0x80000001;
public static final int HKEY_LOCAL_MACHINE = 0x80000002;
public static final int REG_SUCCESS = 0;
public static final int REG_NOTFOUND = 2;
public static final int REG_ACCESSDENIED = 5;
private static final int KEY_ALL_ACCESS = 0xf003f;
private static final int KEY_READ = 0x20019;
private static final Preferences userRoot = Preferences.userRoot();
private static final Preferences systemRoot = Preferences.systemRoot();
private static final Class<? extends Preferences> userClass = userRoot.getClass();
private static final Method regOpenKey;
private static final Method regCloseKey;
private static final Method regQueryValueEx;
private static final Method regEnumValue;
private static final Method regQueryInfoKey;
private static final Method regEnumKeyEx;
private static final Method regCreateKeyEx;
private static final Method regSetValueEx;
private static final Method regDeleteKey;
private static final Method regDeleteValue;
static {
try {
regOpenKey = userClass.getDeclaredMethod("WindowsRegOpenKey",
new Class[] { int.class, byte[].class, int.class });
regOpenKey.setAccessible(true);
regCloseKey = userClass.getDeclaredMethod("WindowsRegCloseKey",
new Class[] { int.class });
regCloseKey.setAccessible(true);
regQueryValueEx = userClass.getDeclaredMethod("WindowsRegQueryValueEx",
new Class[] { int.class, byte[].class });
regQueryValueEx.setAccessible(true);
regEnumValue = userClass.getDeclaredMethod("WindowsRegEnumValue",
new Class[] { int.class, int.class, int.class });
regEnumValue.setAccessible(true);
regQueryInfoKey = userClass.getDeclaredMethod("WindowsRegQueryInfoKey1",
new Class[] { int.class });
regQueryInfoKey.setAccessible(true);
regEnumKeyEx = userClass.getDeclaredMethod(
"WindowsRegEnumKeyEx", new Class[] { int.class, int.class,
int.class });
regEnumKeyEx.setAccessible(true);
regCreateKeyEx = userClass.getDeclaredMethod(
"WindowsRegCreateKeyEx", new Class[] { int.class,
byte[].class });
regCreateKeyEx.setAccessible(true);
regSetValueEx = userClass.getDeclaredMethod(
"WindowsRegSetValueEx", new Class[] { int.class,
byte[].class, byte[].class });
regSetValueEx.setAccessible(true);
regDeleteValue = userClass.getDeclaredMethod(
"WindowsRegDeleteValue", new Class[] { int.class,
byte[].class });
regDeleteValue.setAccessible(true);
regDeleteKey = userClass.getDeclaredMethod(
"WindowsRegDeleteKey", new Class[] { int.class,
byte[].class });
regDeleteKey.setAccessible(true);
}
catch (Exception e) {
throw new RuntimeException(e);
}
}
private WinRegistry() { }
/**
* Read a value from key and value name
* @param hkey HKEY_CURRENT_USER/HKEY_LOCAL_MACHINE
* @param key
* @param valueName
* @return the value
* @throws IllegalArgumentException
* @throws IllegalAccessException
* @throws InvocationTargetException
*/
public static String readString(int hkey, String key, String valueName)
throws IllegalArgumentException, IllegalAccessException,
InvocationTargetException
{
if (hkey == HKEY_LOCAL_MACHINE) {
return readString(systemRoot, hkey, key, valueName);
}
else if (hkey == HKEY_CURRENT_USER) {
return readString(userRoot, hkey, key, valueName);
}
else {
throw new IllegalArgumentException("hkey=" + hkey);
}
}
/**
* Read value(s) and value name(s) form given key
* @param hkey HKEY_CURRENT_USER/HKEY_LOCAL_MACHINE
* @param key
* @return the value name(s) plus the value(s)
* @throws IllegalArgumentException
* @throws IllegalAccessException
* @throws InvocationTargetException
*/
public static Map<String, String> readStringValues(int hkey, String key)
throws IllegalArgumentException, IllegalAccessException,
InvocationTargetException
{
if (hkey == HKEY_LOCAL_MACHINE) {
return readStringValues(systemRoot, hkey, key);
}
else if (hkey == HKEY_CURRENT_USER) {
return readStringValues(userRoot, hkey, key);
}
else {
throw new IllegalArgumentException("hkey=" + hkey);
}
}
/**
* Read the value name(s) from a given key
* @param hkey HKEY_CURRENT_USER/HKEY_LOCAL_MACHINE
* @param key
* @return the value name(s)
* @throws IllegalArgumentException
* @throws IllegalAccessException
* @throws InvocationTargetException
*/
public static List<String> readStringSubKeys(int hkey, String key)
throws IllegalArgumentException, IllegalAccessException,
InvocationTargetException
{
if (hkey == HKEY_LOCAL_MACHINE) {
return readStringSubKeys(systemRoot, hkey, key);
}
else if (hkey == HKEY_CURRENT_USER) {
return readStringSubKeys(userRoot, hkey, key);
}
else {
throw new IllegalArgumentException("hkey=" + hkey);
}
}
/**
* Create a key
* @param hkey HKEY_CURRENT_USER/HKEY_LOCAL_MACHINE
* @param key
* @throws IllegalArgumentException
* @throws IllegalAccessException
* @throws InvocationTargetException
*/
public static void createKey(int hkey, String key)
throws IllegalArgumentException, IllegalAccessException,
InvocationTargetException
{
int [] ret;
if (hkey == HKEY_LOCAL_MACHINE) {
ret = createKey(systemRoot, hkey, key);
regCloseKey.invoke(systemRoot, new Object[] { new Integer(ret[0]) });
}
else if (hkey == HKEY_CURRENT_USER) {
ret = createKey(userRoot, hkey, key);
regCloseKey.invoke(userRoot, new Object[] { new Integer(ret[0]) });
}
else {
throw new IllegalArgumentException("hkey=" + hkey);
}
if (ret[1] != REG_SUCCESS) {
throw new IllegalArgumentException("rc=" + ret[1] + " key=" + key);
}
}
/**
* Write a value in a given key/value name
* @param hkey
* @param key
* @param valueName
* @param value
* @throws IllegalArgumentException
* @throws IllegalAccessException
* @throws InvocationTargetException
*/
public static void writeStringValue
(int hkey, String key, String valueName, String value)
throws IllegalArgumentException, IllegalAccessException,
InvocationTargetException
{
if (hkey == HKEY_LOCAL_MACHINE) {
writeStringValue(systemRoot, hkey, key, valueName, value);
}
else if (hkey == HKEY_CURRENT_USER) {
writeStringValue(userRoot, hkey, key, valueName, value);
}
else {
throw new IllegalArgumentException("hkey=" + hkey);
}
}
/**
* Delete a given key
* @param hkey
* @param key
* @throws IllegalArgumentException
* @throws IllegalAccessException
* @throws InvocationTargetException
*/
public static void deleteKey(int hkey, String key)
throws IllegalArgumentException, IllegalAccessException,
InvocationTargetException
{
int rc = -1;
if (hkey == HKEY_LOCAL_MACHINE) {
rc = deleteKey(systemRoot, hkey, key);
}
else if (hkey == HKEY_CURRENT_USER) {
rc = deleteKey(userRoot, hkey, key);
}
if (rc != REG_SUCCESS) {
throw new IllegalArgumentException("rc=" + rc + " key=" + key);
}
}
/**
* delete a value from a given key/value name
* @param hkey
* @param key
* @param value
* @throws IllegalArgumentException
* @throws IllegalAccessException
* @throws InvocationTargetException
*/
public static void deleteValue(int hkey, String key, String value)
throws IllegalArgumentException, IllegalAccessException,
InvocationTargetException
{
int rc = -1;
if (hkey == HKEY_LOCAL_MACHINE) {
rc = deleteValue(systemRoot, hkey, key, value);
}
else if (hkey == HKEY_CURRENT_USER) {
rc = deleteValue(userRoot, hkey, key, value);
}
if (rc != REG_SUCCESS) {
throw new IllegalArgumentException("rc=" + rc + " key=" + key + " value=" + value);
}
}
// =====================
private static int deleteValue
(Preferences root, int hkey, String key, String value)
throws IllegalArgumentException, IllegalAccessException,
InvocationTargetException
{
int[] handles = (int[]) regOpenKey.invoke(root, new Object[] {
new Integer(hkey), toCstr(key), new Integer(KEY_ALL_ACCESS) });
if (handles[1] != REG_SUCCESS) {
return handles[1]; // can be REG_NOTFOUND, REG_ACCESSDENIED
}
int rc =((Integer) regDeleteValue.invoke(root,
new Object[] {
new Integer(handles[0]), toCstr(value)
})).intValue();
regCloseKey.invoke(root, new Object[] { new Integer(handles[0]) });
return rc;
}
private static int deleteKey(Preferences root, int hkey, String key)
throws IllegalArgumentException, IllegalAccessException,
InvocationTargetException
{
int rc =((Integer) regDeleteKey.invoke(root,
new Object[] { new Integer(hkey), toCstr(key) })).intValue();
return rc; // can REG_NOTFOUND, REG_ACCESSDENIED, REG_SUCCESS
}
private static String readString(Preferences root, int hkey, String key, String value)
throws IllegalArgumentException, IllegalAccessException,
InvocationTargetException
{
int[] handles = (int[]) regOpenKey.invoke(root, new Object[] {
new Integer(hkey), toCstr(key), new Integer(KEY_READ) });
if (handles[1] != REG_SUCCESS) {
return null;
}
byte[] valb = (byte[]) regQueryValueEx.invoke(root, new Object[] {
new Integer(handles[0]), toCstr(value) });
regCloseKey.invoke(root, new Object[] { new Integer(handles[0]) });
return (valb != null ? new String(valb).trim() : null);
}
private static Map<String,String> readStringValues
(Preferences root, int hkey, String key)
throws IllegalArgumentException, IllegalAccessException,
InvocationTargetException
{
HashMap<String, String> results = new HashMap<String,String>();
int[] handles = (int[]) regOpenKey.invoke(root, new Object[] {
new Integer(hkey), toCstr(key), new Integer(KEY_READ) });
if (handles[1] != REG_SUCCESS) {
return null;
}
int[] info = (int[]) regQueryInfoKey.invoke(root,
new Object[] { new Integer(handles[0]) });
int count = info[0]; // count
int maxlen = info[3]; // value length max
for(int index=0; index<count; index++) {
byte[] name = (byte[]) regEnumValue.invoke(root, new Object[] {
new Integer
(handles[0]), new Integer(index), new Integer(maxlen + 1)});
String value = readString(hkey, key, new String(name));
results.put(new String(name).trim(), value);
}
regCloseKey.invoke(root, new Object[] { new Integer(handles[0]) });
return results;
}
private static List<String> readStringSubKeys
(Preferences root, int hkey, String key)
throws IllegalArgumentException, IllegalAccessException,
InvocationTargetException
{
List<String> results = new ArrayList<String>();
int[] handles = (int[]) regOpenKey.invoke(root, new Object[] {
new Integer(hkey), toCstr(key), new Integer(KEY_READ)
});
if (handles[1] != REG_SUCCESS) {
return null;
}
int[] info = (int[]) regQueryInfoKey.invoke(root,
new Object[] { new Integer(handles[0]) });
int count = info[0]; // Fix: info[2] was being used here with wrong results. Suggested by davenpcj, confirmed by Petrucio
int maxlen = info[3]; // value length max
for(int index=0; index<count; index++) {
byte[] name = (byte[]) regEnumKeyEx.invoke(root, new Object[] {
new Integer
(handles[0]), new Integer(index), new Integer(maxlen + 1)
});
results.add(new String(name).trim());
}
regCloseKey.invoke(root, new Object[] { new Integer(handles[0]) });
return results;
}
private static int [] createKey(Preferences root, int hkey, String key)
throws IllegalArgumentException, IllegalAccessException,
InvocationTargetException
{
return (int[]) regCreateKeyEx.invoke(root,
new Object[] { new Integer(hkey), toCstr(key) });
}
private static void writeStringValue
(Preferences root, int hkey, String key, String valueName, String value)
throws IllegalArgumentException, IllegalAccessException,
InvocationTargetException
{
int[] handles = (int[]) regOpenKey.invoke(root, new Object[] {
new Integer(hkey), toCstr(key), new Integer(KEY_ALL_ACCESS) });
regSetValueEx.invoke(root,
new Object[] {
new Integer(handles[0]), toCstr(valueName), toCstr(value)
});
regCloseKey.invoke(root, new Object[] { new Integer(handles[0]) });
}
// utility
private static byte[] toCstr(String str) {
byte[] result = new byte[str.length() + 1];
for (int i = 0; i < str.length(); i++) {
result[i] = (byte) str.charAt(i);
}
result[str.length()] = 0;
return result;
}
}
Oryginalny autor: Apache.
Źródło biblioteki: https://github.com/apache/npanday/tree/trunk/components/dotnet-registry/src/main/java/npanday/registry
Java 9
ponieważ generuje następujące ostrzeżenie:An illegal reflective access operation has occurred
Tak naprawdę nie potrzebujesz pakietu innej firmy. System Windows ma narzędzie reg do wszystkich operacji rejestru. Aby uzyskać format polecenia, przejdź do propozycji DOS i wpisz:
reg /?
Możesz wywołać reg za pośrednictwem klasy Runtime:
Runtime.getRuntime().exec("reg <your parameters here>");
Edycja kluczy i dodawanie nowych jest prosta przy użyciu powyższego polecenia. Aby odczytać rejestr, musisz uzyskać wynik reg , a to trochę trudne. Oto kod:
import java.io.IOException;
import java.io.InputStream;
import java.io.StringWriter;
/**
* @author Oleg Ryaboy, based on work by Miguel Enriquez
*/
public class WindowsReqistry {
/**
*
* @param location path in the registry
* @param key registry key
* @return registry value or null if not found
*/
public static final String readRegistry(String location, String key){
try {
// Run reg query, then read output with StreamReader (internal class)
Process process = Runtime.getRuntime().exec("reg query " +
'"'+ location + "\" /v " + key);
StreamReader reader = new StreamReader(process.getInputStream());
reader.start();
process.waitFor();
reader.join();
String output = reader.getResult();
// Output has the following format:
// \n<Version information>\n\n<key>\t<registry type>\t<value>
if( ! output.contains("\t")){
return null;
}
// Parse out the value
String[] parsed = output.split("\t");
return parsed[parsed.length-1];
}
catch (Exception e) {
return null;
}
}
static class StreamReader extends Thread {
private InputStream is;
private StringWriter sw= new StringWriter();
public StreamReader(InputStream is) {
this.is = is;
}
public void run() {
try {
int c;
while ((c = is.read()) != -1)
sw.write(c);
}
catch (IOException e) {
}
}
public String getResult() {
return sw.toString();
}
}
public static void main(String[] args) {
// Sample usage
String value = WindowsReqistry.readRegistry("HKCU\\Software\\Microsoft\\Windows\\CurrentVersion\\"
+ "Explorer\\Shell Folders", "Personal");
System.out.println(value);
}
}
Java Native Access (JNA) to doskonały projekt do pracy z bibliotekami natywnymi i ma obsługę rejestru Windows w bibliotece platformy (platform.jar) za pośrednictwem Advapi32Util i Advapi32 .
Aktualizacja: Oto fragment z kilkoma przykładami tego, jak łatwo używać JNA do pracy z rejestrem Windows za pomocą JNA 3.4.1,
import com.sun.jna.platform.win32.Advapi32Util;
import com.sun.jna.platform.win32.WinReg;
public class WindowsRegistrySnippet {
public static void main(String[] args) {
// Read a string
String productName = Advapi32Util.registryGetStringValue(
WinReg.HKEY_LOCAL_MACHINE, "SOFTWARE\\Microsoft\\Windows NT\\CurrentVersion", "ProductName");
System.out.printf("Product Name: %s\n", productName);
// Read an int (& 0xFFFFFFFFL for large unsigned int)
int timeout = Advapi32Util.registryGetIntValue(
WinReg.HKEY_LOCAL_MACHINE, "SOFTWARE\\Microsoft\\Windows NT\\CurrentVersion\\Windows", "ShutdownWarningDialogTimeout");
System.out.printf("Shutdown Warning Dialog Timeout: %d (%d as unsigned long)\n", timeout, timeout & 0xFFFFFFFFL);
// Create a key and write a string
Advapi32Util.registryCreateKey(WinReg.HKEY_CURRENT_USER, "SOFTWARE\\StackOverflow");
Advapi32Util.registrySetStringValue(WinReg.HKEY_CURRENT_USER, "SOFTWARE\\StackOverflow", "url", "http://stackoverflow.com/a/6287763/277307");
// Delete a key
Advapi32Util.registryDeleteKey(WinReg.HKEY_CURRENT_USER, "SOFTWARE\\StackOverflow");
}
}
Zwiększyłem kod Pure Java, pierwotnie opublikowany przez Davida, aby umożliwić dostęp do 32-bitowej sekcji rejestru z 64-bitowej maszyny JVM i odwrotnie. Nie sądzę, żeby na to odpowiadały inne odpowiedzi.
Oto on:
/**
* Pure Java Windows Registry access.
* Modified by petrucio@stackoverflow(828681) to add support for
* reading (and writing but not creating/deleting keys) the 32-bits
* registry view from a 64-bits JVM (KEY_WOW64_32KEY)
* and 64-bits view from a 32-bits JVM (KEY_WOW64_64KEY).
*****************************************************************************/
import java.lang.reflect.InvocationTargetException;
import java.lang.reflect.Method;
import java.util.HashMap;
import java.util.Map;
import java.util.ArrayList;
import java.util.List;
import java.util.prefs.Preferences;
public class WinRegistry {
public static final int HKEY_CURRENT_USER = 0x80000001;
public static final int HKEY_LOCAL_MACHINE = 0x80000002;
public static final int REG_SUCCESS = 0;
public static final int REG_NOTFOUND = 2;
public static final int REG_ACCESSDENIED = 5;
public static final int KEY_WOW64_32KEY = 0x0200;
public static final int KEY_WOW64_64KEY = 0x0100;
private static final int KEY_ALL_ACCESS = 0xf003f;
private static final int KEY_READ = 0x20019;
private static Preferences userRoot = Preferences.userRoot();
private static Preferences systemRoot = Preferences.systemRoot();
private static Class<? extends Preferences> userClass = userRoot.getClass();
private static Method regOpenKey = null;
private static Method regCloseKey = null;
private static Method regQueryValueEx = null;
private static Method regEnumValue = null;
private static Method regQueryInfoKey = null;
private static Method regEnumKeyEx = null;
private static Method regCreateKeyEx = null;
private static Method regSetValueEx = null;
private static Method regDeleteKey = null;
private static Method regDeleteValue = null;
static {
try {
regOpenKey = userClass.getDeclaredMethod("WindowsRegOpenKey", new Class[] { int.class, byte[].class, int.class });
regOpenKey.setAccessible(true);
regCloseKey = userClass.getDeclaredMethod("WindowsRegCloseKey", new Class[] { int.class });
regCloseKey.setAccessible(true);
regQueryValueEx= userClass.getDeclaredMethod("WindowsRegQueryValueEx",new Class[] { int.class, byte[].class });
regQueryValueEx.setAccessible(true);
regEnumValue = userClass.getDeclaredMethod("WindowsRegEnumValue", new Class[] { int.class, int.class, int.class });
regEnumValue.setAccessible(true);
regQueryInfoKey=userClass.getDeclaredMethod("WindowsRegQueryInfoKey1",new Class[] { int.class });
regQueryInfoKey.setAccessible(true);
regEnumKeyEx = userClass.getDeclaredMethod("WindowsRegEnumKeyEx", new Class[] { int.class, int.class, int.class });
regEnumKeyEx.setAccessible(true);
regCreateKeyEx = userClass.getDeclaredMethod("WindowsRegCreateKeyEx", new Class[] { int.class, byte[].class });
regCreateKeyEx.setAccessible(true);
regSetValueEx = userClass.getDeclaredMethod("WindowsRegSetValueEx", new Class[] { int.class, byte[].class, byte[].class });
regSetValueEx.setAccessible(true);
regDeleteValue = userClass.getDeclaredMethod("WindowsRegDeleteValue", new Class[] { int.class, byte[].class });
regDeleteValue.setAccessible(true);
regDeleteKey = userClass.getDeclaredMethod("WindowsRegDeleteKey", new Class[] { int.class, byte[].class });
regDeleteKey.setAccessible(true);
}
catch (Exception e) {
e.printStackTrace();
}
}
private WinRegistry() { }
/**
* Read a value from key and value name
* @param hkey HKEY_CURRENT_USER/HKEY_LOCAL_MACHINE
* @param key
* @param valueName
* @param wow64 0 for standard registry access (32-bits for 32-bit app, 64-bits for 64-bits app)
* or KEY_WOW64_32KEY to force access to 32-bit registry view,
* or KEY_WOW64_64KEY to force access to 64-bit registry view
* @return the value
* @throws IllegalArgumentException
* @throws IllegalAccessException
* @throws InvocationTargetException
*/
public static String readString(int hkey, String key, String valueName, int wow64)
throws IllegalArgumentException, IllegalAccessException,
InvocationTargetException
{
if (hkey == HKEY_LOCAL_MACHINE) {
return readString(systemRoot, hkey, key, valueName, wow64);
}
else if (hkey == HKEY_CURRENT_USER) {
return readString(userRoot, hkey, key, valueName, wow64);
}
else {
throw new IllegalArgumentException("hkey=" + hkey);
}
}
/**
* Read value(s) and value name(s) form given key
* @param hkey HKEY_CURRENT_USER/HKEY_LOCAL_MACHINE
* @param key
* @param wow64 0 for standard registry access (32-bits for 32-bit app, 64-bits for 64-bits app)
* or KEY_WOW64_32KEY to force access to 32-bit registry view,
* or KEY_WOW64_64KEY to force access to 64-bit registry view
* @return the value name(s) plus the value(s)
* @throws IllegalArgumentException
* @throws IllegalAccessException
* @throws InvocationTargetException
*/
public static Map<String, String> readStringValues(int hkey, String key, int wow64)
throws IllegalArgumentException, IllegalAccessException, InvocationTargetException
{
if (hkey == HKEY_LOCAL_MACHINE) {
return readStringValues(systemRoot, hkey, key, wow64);
}
else if (hkey == HKEY_CURRENT_USER) {
return readStringValues(userRoot, hkey, key, wow64);
}
else {
throw new IllegalArgumentException("hkey=" + hkey);
}
}
/**
* Read the value name(s) from a given key
* @param hkey HKEY_CURRENT_USER/HKEY_LOCAL_MACHINE
* @param key
* @param wow64 0 for standard registry access (32-bits for 32-bit app, 64-bits for 64-bits app)
* or KEY_WOW64_32KEY to force access to 32-bit registry view,
* or KEY_WOW64_64KEY to force access to 64-bit registry view
* @return the value name(s)
* @throws IllegalArgumentException
* @throws IllegalAccessException
* @throws InvocationTargetException
*/
public static List<String> readStringSubKeys(int hkey, String key, int wow64)
throws IllegalArgumentException, IllegalAccessException, InvocationTargetException
{
if (hkey == HKEY_LOCAL_MACHINE) {
return readStringSubKeys(systemRoot, hkey, key, wow64);
}
else if (hkey == HKEY_CURRENT_USER) {
return readStringSubKeys(userRoot, hkey, key, wow64);
}
else {
throw new IllegalArgumentException("hkey=" + hkey);
}
}
/**
* Create a key
* @param hkey HKEY_CURRENT_USER/HKEY_LOCAL_MACHINE
* @param key
* @throws IllegalArgumentException
* @throws IllegalAccessException
* @throws InvocationTargetException
*/
public static void createKey(int hkey, String key)
throws IllegalArgumentException, IllegalAccessException, InvocationTargetException
{
int [] ret;
if (hkey == HKEY_LOCAL_MACHINE) {
ret = createKey(systemRoot, hkey, key);
regCloseKey.invoke(systemRoot, new Object[] { new Integer(ret[0]) });
}
else if (hkey == HKEY_CURRENT_USER) {
ret = createKey(userRoot, hkey, key);
regCloseKey.invoke(userRoot, new Object[] { new Integer(ret[0]) });
}
else {
throw new IllegalArgumentException("hkey=" + hkey);
}
if (ret[1] != REG_SUCCESS) {
throw new IllegalArgumentException("rc=" + ret[1] + " key=" + key);
}
}
/**
* Write a value in a given key/value name
* @param hkey
* @param key
* @param valueName
* @param value
* @param wow64 0 for standard registry access (32-bits for 32-bit app, 64-bits for 64-bits app)
* or KEY_WOW64_32KEY to force access to 32-bit registry view,
* or KEY_WOW64_64KEY to force access to 64-bit registry view
* @throws IllegalArgumentException
* @throws IllegalAccessException
* @throws InvocationTargetException
*/
public static void writeStringValue
(int hkey, String key, String valueName, String value, int wow64)
throws IllegalArgumentException, IllegalAccessException, InvocationTargetException
{
if (hkey == HKEY_LOCAL_MACHINE) {
writeStringValue(systemRoot, hkey, key, valueName, value, wow64);
}
else if (hkey == HKEY_CURRENT_USER) {
writeStringValue(userRoot, hkey, key, valueName, value, wow64);
}
else {
throw new IllegalArgumentException("hkey=" + hkey);
}
}
/**
* Delete a given key
* @param hkey
* @param key
* @throws IllegalArgumentException
* @throws IllegalAccessException
* @throws InvocationTargetException
*/
public static void deleteKey(int hkey, String key)
throws IllegalArgumentException, IllegalAccessException, InvocationTargetException
{
int rc = -1;
if (hkey == HKEY_LOCAL_MACHINE) {
rc = deleteKey(systemRoot, hkey, key);
}
else if (hkey == HKEY_CURRENT_USER) {
rc = deleteKey(userRoot, hkey, key);
}
if (rc != REG_SUCCESS) {
throw new IllegalArgumentException("rc=" + rc + " key=" + key);
}
}
/**
* delete a value from a given key/value name
* @param hkey
* @param key
* @param value
* @param wow64 0 for standard registry access (32-bits for 32-bit app, 64-bits for 64-bits app)
* or KEY_WOW64_32KEY to force access to 32-bit registry view,
* or KEY_WOW64_64KEY to force access to 64-bit registry view
* @throws IllegalArgumentException
* @throws IllegalAccessException
* @throws InvocationTargetException
*/
public static void deleteValue(int hkey, String key, String value, int wow64)
throws IllegalArgumentException, IllegalAccessException, InvocationTargetException
{
int rc = -1;
if (hkey == HKEY_LOCAL_MACHINE) {
rc = deleteValue(systemRoot, hkey, key, value, wow64);
}
else if (hkey == HKEY_CURRENT_USER) {
rc = deleteValue(userRoot, hkey, key, value, wow64);
}
if (rc != REG_SUCCESS) {
throw new IllegalArgumentException("rc=" + rc + " key=" + key + " value=" + value);
}
}
//========================================================================
private static int deleteValue(Preferences root, int hkey, String key, String value, int wow64)
throws IllegalArgumentException, IllegalAccessException, InvocationTargetException
{
int[] handles = (int[]) regOpenKey.invoke(root, new Object[] {
new Integer(hkey), toCstr(key), new Integer(KEY_ALL_ACCESS | wow64)
});
if (handles[1] != REG_SUCCESS) {
return handles[1]; // can be REG_NOTFOUND, REG_ACCESSDENIED
}
int rc =((Integer) regDeleteValue.invoke(root, new Object[] {
new Integer(handles[0]), toCstr(value)
})).intValue();
regCloseKey.invoke(root, new Object[] { new Integer(handles[0]) });
return rc;
}
//========================================================================
private static int deleteKey(Preferences root, int hkey, String key)
throws IllegalArgumentException, IllegalAccessException, InvocationTargetException
{
int rc =((Integer) regDeleteKey.invoke(root, new Object[] {
new Integer(hkey), toCstr(key)
})).intValue();
return rc; // can REG_NOTFOUND, REG_ACCESSDENIED, REG_SUCCESS
}
//========================================================================
private static String readString(Preferences root, int hkey, String key, String value, int wow64)
throws IllegalArgumentException, IllegalAccessException, InvocationTargetException
{
int[] handles = (int[]) regOpenKey.invoke(root, new Object[] {
new Integer(hkey), toCstr(key), new Integer(KEY_READ | wow64)
});
if (handles[1] != REG_SUCCESS) {
return null;
}
byte[] valb = (byte[]) regQueryValueEx.invoke(root, new Object[] {
new Integer(handles[0]), toCstr(value)
});
regCloseKey.invoke(root, new Object[] { new Integer(handles[0]) });
return (valb != null ? new String(valb).trim() : null);
}
//========================================================================
private static Map<String,String> readStringValues(Preferences root, int hkey, String key, int wow64)
throws IllegalArgumentException, IllegalAccessException, InvocationTargetException
{
HashMap<String, String> results = new HashMap<String,String>();
int[] handles = (int[]) regOpenKey.invoke(root, new Object[] {
new Integer(hkey), toCstr(key), new Integer(KEY_READ | wow64)
});
if (handles[1] != REG_SUCCESS) {
return null;
}
int[] info = (int[]) regQueryInfoKey.invoke(root, new Object[] {
new Integer(handles[0])
});
int count = info[2]; // count
int maxlen = info[3]; // value length max
for(int index=0; index<count; index++) {
byte[] name = (byte[]) regEnumValue.invoke(root, new Object[] {
new Integer(handles[0]), new Integer(index), new Integer(maxlen + 1)
});
String value = readString(hkey, key, new String(name), wow64);
results.put(new String(name).trim(), value);
}
regCloseKey.invoke(root, new Object[] { new Integer(handles[0]) });
return results;
}
//========================================================================
private static List<String> readStringSubKeys(Preferences root, int hkey, String key, int wow64)
throws IllegalArgumentException, IllegalAccessException, InvocationTargetException
{
List<String> results = new ArrayList<String>();
int[] handles = (int[]) regOpenKey.invoke(root, new Object[] {
new Integer(hkey), toCstr(key), new Integer(KEY_READ | wow64)
});
if (handles[1] != REG_SUCCESS) {
return null;
}
int[] info = (int[]) regQueryInfoKey.invoke(root, new Object[] {
new Integer(handles[0])
});
int count = info[0]; // Fix: info[2] was being used here with wrong results. Suggested by davenpcj, confirmed by Petrucio
int maxlen = info[3]; // value length max
for(int index=0; index<count; index++) {
byte[] name = (byte[]) regEnumKeyEx.invoke(root, new Object[] {
new Integer(handles[0]), new Integer(index), new Integer(maxlen + 1)
});
results.add(new String(name).trim());
}
regCloseKey.invoke(root, new Object[] { new Integer(handles[0]) });
return results;
}
//========================================================================
private static int [] createKey(Preferences root, int hkey, String key)
throws IllegalArgumentException, IllegalAccessException, InvocationTargetException
{
return (int[]) regCreateKeyEx.invoke(root, new Object[] {
new Integer(hkey), toCstr(key)
});
}
//========================================================================
private static void writeStringValue(Preferences root, int hkey, String key, String valueName, String value, int wow64)
throws IllegalArgumentException, IllegalAccessException, InvocationTargetException
{
int[] handles = (int[]) regOpenKey.invoke(root, new Object[] {
new Integer(hkey), toCstr(key), new Integer(KEY_ALL_ACCESS | wow64)
});
regSetValueEx.invoke(root, new Object[] {
new Integer(handles[0]), toCstr(valueName), toCstr(value)
});
regCloseKey.invoke(root, new Object[] { new Integer(handles[0]) });
}
//========================================================================
// utility
private static byte[] toCstr(String str) {
byte[] result = new byte[str.length() + 1];
for (int i = 0; i < str.length(); i++) {
result[i] = (byte) str.charAt(i);
}
result[str.length()] = 0;
return result;
}
}
int
celu long
, aby ponownie tę pracę.
Zrobiłem to przed użyciem jRegistryKey . Jest to biblioteka Java / JNI LGPL, która może robić to, czego potrzebujesz. Oto przykład, w jaki sposób użyłem go do włączenia edycji rejestru za pomocą regedit, a także opcji „Pokaż opcje folderów” dla mnie w systemie Windows za pośrednictwem rejestru.
import java.io.File;
import ca.beq.util.win32.registry.RegistryKey;
import ca.beq.util.win32.registry.RegistryValue;
import ca.beq.util.win32.registry.RootKey;
import ca.beq.util.win32.registry.ValueType;
public class FixStuff {
private static final String REGEDIT_KEY = "Software\\Microsoft\\Windows\\CurrentVersion\\Policies\\System";
private static final String REGEDIT_VALUE = "DisableRegistryTools";
private static final String REGISTRY_LIBRARY_PATH = "\\lib\\jRegistryKey.dll";
private static final String FOLDER_OPTIONS_KEY = "Software\\Microsoft\\Windows\\CurrentVersion\\Policies\\Explorer";
private static final String FOLDER_OPTIONS_VALUE = "NoFolderOptions";
public static void main(String[] args) {
//Load JNI library
RegistryKey.initialize( new File(".").getAbsolutePath()+REGISTRY_LIBRARY_PATH );
enableRegistryEditing(true);
enableShowFolderOptions(true);
}
private static void enableShowFolderOptions(boolean enable) {
RegistryKey key = new RegistryKey(RootKey.HKEY_CURRENT_USER,FOLDER_OPTIONS_KEY);
RegistryKey key2 = new RegistryKey(RootKey.HKEY_LOCAL_MACHINE,FOLDER_OPTIONS_KEY);
RegistryValue value = new RegistryValue();
value.setName(FOLDER_OPTIONS_VALUE);
value.setType(ValueType.REG_DWORD_LITTLE_ENDIAN);
value.setData(enable?0:1);
if(key.hasValue(FOLDER_OPTIONS_VALUE)) {
key.setValue(value);
}
if(key2.hasValue(FOLDER_OPTIONS_VALUE)) {
key2.setValue(value);
}
}
private static void enableRegistryEditing(boolean enable) {
RegistryKey key = new RegistryKey(RootKey.HKEY_CURRENT_USER,REGEDIT_KEY);
RegistryValue value = new RegistryValue();
value.setName(REGEDIT_VALUE);
value.setType(ValueType.REG_DWORD_LITTLE_ENDIAN);
value.setData(enable?0:1);
if(key.hasValue(REGEDIT_VALUE)) {
key.setValue(value);
}
}
}
Tak, używając interfejsu API java.util.Preferences, ponieważ jego implementacja w systemie Windows używa rejestru jako zaplecza.
Ostatecznie zależy to od tego, co chcesz zrobić: przechowywanie preferencji dla aplikacji jest tym, co Preferencje po prostu świetnie. Jeśli chcesz zmienić klucze rejestru, które nie mają związku z Twoją aplikacją, potrzebujesz aplikacji JNI, zgodnie z opisem Marka (tutaj bezwstydna kradzież):
Z szybkiego google: sprawdź WinPack dla JNIWrapper. Posiada pełną obsługę dostępu do rejestru Windows, w tym czytanie i pisanie.
Demo WinPack ma zaimplementowaną przeglądarkę rejestru jako przykład.
Sprawdź na stronie http://www.teamdev.com/jniwrapper/winpack/#registry_access
I...
Można również wypróbować JNIRegistry @ http://www.trustice.com/java/jnireg/
Istnieje również opcja wywołania zewnętrznej aplikacji odpowiedzialnej za odczyt / zapis rejestru.
Z szybkiego google:
Sprawdź WinPack dla JNIWrapper. Posiada pełną obsługę dostępu do rejestru Windows, w tym czytanie i pisanie.
Demo WinPack ma zaimplementowaną przeglądarkę rejestru jako przykład.
Sprawdź na stronie http://www.teamdev.com/jniwrapper/winpack/#registry_access
I...
Istnieje również wypróbowanie JNIRegistry @ http://www.trustice.com/java/jnireg/
Istnieje również opcja wywołania zewnętrznej aplikacji odpowiedzialnej za odczyt / zapis rejestru.
Oto zmodyfikowana wersja rozwiązania Olega. Zauważyłem, że w moim systemie (Windows Server 2003) dane wyjściowe „reg query” nie są oddzielone tabulatorami („\ t”), ale 4 spacjami.
Uprościłem również rozwiązanie, ponieważ wątek nie jest wymagany.
public static final String readRegistry(String location, String key)
{
try
{
// Run reg query, then read output with StreamReader (internal class)
Process process = Runtime.getRuntime().exec("reg query " +
'"'+ location + "\" /v " + key);
InputStream is = process.getInputStream();
StringBuilder sw = new StringBuilder();
try
{
int c;
while ((c = is.read()) != -1)
sw.append((char)c);
}
catch (IOException e)
{
}
String output = sw.toString();
// Output has the following format:
// \n<Version information>\n\n<key> <registry type> <value>\r\n\r\n
int i = output.indexOf("REG_SZ");
if (i == -1)
{
return null;
}
sw = new StringBuilder();
i += 6; // skip REG_SZ
// skip spaces or tabs
for (;;)
{
if (i > output.length())
break;
char c = output.charAt(i);
if (c != ' ' && c != '\t')
break;
++i;
}
// take everything until end of line
for (;;)
{
if (i > output.length())
break;
char c = output.charAt(i);
if (c == '\r' || c == '\n')
break;
sw.append(c);
++i;
}
return sw.toString();
}
catch (Exception e)
{
return null;
}
}
Dzięki oryginalnemu wpisowi. Ponownie przemknąłem tę klasę użyteczności i natknąłem się na wady, które miała wcześniej, pomyślałem, że może to pomóc innym, więc publikując tutaj. Dodałem także kilka dodatkowych metod narzędziowych. Teraz jest w stanie odczytać dowolny plik w rejestrze systemu Windows (w tym REG_DWORD, REG_BINARY, REG_EXPAND_SZ itp.). Wszystkie metody działają jak urok. Po prostu skopiuj i wklej to i powinno działać. Oto reskinned i zmodyfikowana klasa:
import java.io.BufferedReader;
import java.io.IOException;
import java.io.InputStreamReader;
import java.lang.reflect.InvocationTargetException;
import java.lang.reflect.Method;
import java.util.HashMap;
import java.util.Map;
import java.util.ArrayList;
import java.util.List;
import java.util.StringTokenizer;
import java.util.prefs.Preferences;
public class WinRegistry {
private static final int REG_SUCCESS = 0;
private static final int REG_NOTFOUND = 2;
private static final int KEY_READ = 0x20019;
private static final int REG_ACCESSDENIED = 5;
private static final int KEY_ALL_ACCESS = 0xf003f;
public static final int HKEY_CLASSES_ROOT = 0x80000000;
public static final int HKEY_CURRENT_USER = 0x80000001;
public static final int HKEY_LOCAL_MACHINE = 0x80000002;
private static final String CLASSES_ROOT = "HKEY_CLASSES_ROOT";
private static final String CURRENT_USER = "HKEY_CURRENT_USER";
private static final String LOCAL_MACHINE = "HKEY_LOCAL_MACHINE";
private static Preferences userRoot = Preferences.userRoot();
private static Preferences systemRoot = Preferences.systemRoot();
private static Class<? extends Preferences> userClass = userRoot.getClass();
private static Method regOpenKey = null;
private static Method regCloseKey = null;
private static Method regQueryValueEx = null;
private static Method regEnumValue = null;
private static Method regQueryInfoKey = null;
private static Method regEnumKeyEx = null;
private static Method regCreateKeyEx = null;
private static Method regSetValueEx = null;
private static Method regDeleteKey = null;
private static Method regDeleteValue = null;
static {
try {
regOpenKey = userClass.getDeclaredMethod("WindowsRegOpenKey", new Class[] {int.class, byte[].class, int.class});
regOpenKey.setAccessible(true);
regCloseKey = userClass.getDeclaredMethod("WindowsRegCloseKey", new Class[] {int.class});
regCloseKey.setAccessible(true);
regQueryValueEx = userClass.getDeclaredMethod("WindowsRegQueryValueEx", new Class[] {int.class, byte[].class});
regQueryValueEx.setAccessible(true);
regEnumValue = userClass.getDeclaredMethod("WindowsRegEnumValue", new Class[] {int.class, int.class, int.class});
regEnumValue.setAccessible(true);
regQueryInfoKey = userClass.getDeclaredMethod("WindowsRegQueryInfoKey1", new Class[] {int.class});
regQueryInfoKey.setAccessible(true);
regEnumKeyEx = userClass.getDeclaredMethod("WindowsRegEnumKeyEx", new Class[] {int.class, int.class, int.class});
regEnumKeyEx.setAccessible(true);
regCreateKeyEx = userClass.getDeclaredMethod("WindowsRegCreateKeyEx", new Class[] {int.class, byte[].class});
regCreateKeyEx.setAccessible(true);
regSetValueEx = userClass.getDeclaredMethod("WindowsRegSetValueEx", new Class[] {int.class, byte[].class, byte[].class});
regSetValueEx.setAccessible(true);
regDeleteValue = userClass.getDeclaredMethod("WindowsRegDeleteValue", new Class[] {int.class, byte[].class});
regDeleteValue.setAccessible(true);
regDeleteKey = userClass.getDeclaredMethod("WindowsRegDeleteKey", new Class[] {int.class, byte[].class});
regDeleteKey.setAccessible(true);
}
catch (Exception e) {
e.printStackTrace();
}
}
/**
* Reads value for the key from given path
* @param hkey HKEY_CURRENT_USER/HKEY_LOCAL_MACHINE
* @param path
* @param key
* @return the value
* @throws IllegalArgumentException
* @throws IllegalAccessException
* @throws InvocationTargetException
* @throws IOException
*/
public static String valueForKey(int hkey, String path, String key)
throws IllegalArgumentException, IllegalAccessException, InvocationTargetException, IOException {
if (hkey == HKEY_LOCAL_MACHINE)
return valueForKey(systemRoot, hkey, path, key);
else if (hkey == HKEY_CURRENT_USER)
return valueForKey(userRoot, hkey, path, key);
else
return valueForKey(null, hkey, path, key);
}
/**
* Reads all key(s) and value(s) from given path
* @param hkey HKEY_CURRENT_USER/HKEY_LOCAL_MACHINE
* @param path
* @return the map of key(s) and corresponding value(s)
* @throws IllegalArgumentException
* @throws IllegalAccessException
* @throws InvocationTargetException
* @throws IOException
*/
public static Map<String, String> valuesForPath(int hkey, String path)
throws IllegalArgumentException, IllegalAccessException, InvocationTargetException, IOException {
if (hkey == HKEY_LOCAL_MACHINE)
return valuesForPath(systemRoot, hkey, path);
else if (hkey == HKEY_CURRENT_USER)
return valuesForPath(userRoot, hkey, path);
else
return valuesForPath(null, hkey, path);
}
/**
* Read all the subkey(s) from a given path
* @param hkey HKEY_CURRENT_USER/HKEY_LOCAL_MACHINE
* @param path
* @return the subkey(s) list
* @throws IllegalArgumentException
* @throws IllegalAccessException
* @throws InvocationTargetException
*/
public static List<String> subKeysForPath(int hkey, String path)
throws IllegalArgumentException, IllegalAccessException, InvocationTargetException {
if (hkey == HKEY_LOCAL_MACHINE)
return subKeysForPath(systemRoot, hkey, path);
else if (hkey == HKEY_CURRENT_USER)
return subKeysForPath(userRoot, hkey, path);
else
return subKeysForPath(null, hkey, path);
}
/**
* Create a key
* @param hkey HKEY_CURRENT_USER/HKEY_LOCAL_MACHINE
* @param key
* @throws IllegalArgumentException
* @throws IllegalAccessException
* @throws InvocationTargetException
*/
public static void createKey(int hkey, String key)
throws IllegalArgumentException, IllegalAccessException, InvocationTargetException {
int [] ret;
if (hkey == HKEY_LOCAL_MACHINE) {
ret = createKey(systemRoot, hkey, key);
regCloseKey.invoke(systemRoot, new Object[] { new Integer(ret[0]) });
} else if (hkey == HKEY_CURRENT_USER) {
ret = createKey(userRoot, hkey, key);
regCloseKey.invoke(userRoot, new Object[] { new Integer(ret[0]) });
} else
throw new IllegalArgumentException("hkey=" + hkey);
if (ret[1] != REG_SUCCESS)
throw new IllegalArgumentException("rc=" + ret[1] + " key=" + key);
}
/**
* Write a value in a given key/value name
* @param hkey
* @param key
* @param valueName
* @param value
* @throws IllegalArgumentException
* @throws IllegalAccessException
* @throws InvocationTargetException
*/
public static void writeStringValue(int hkey, String key, String valueName, String value)
throws IllegalArgumentException, IllegalAccessException, InvocationTargetException {
if (hkey == HKEY_LOCAL_MACHINE)
writeStringValue(systemRoot, hkey, key, valueName, value);
else if (hkey == HKEY_CURRENT_USER)
writeStringValue(userRoot, hkey, key, valueName, value);
else
throw new IllegalArgumentException("hkey=" + hkey);
}
/**
* Delete a given key
* @param hkey
* @param key
* @throws IllegalArgumentException
* @throws IllegalAccessException
* @throws InvocationTargetException
*/
public static void deleteKey(int hkey, String key)
throws IllegalArgumentException, IllegalAccessException, InvocationTargetException {
int rc = -1;
if (hkey == HKEY_LOCAL_MACHINE)
rc = deleteKey(systemRoot, hkey, key);
else if (hkey == HKEY_CURRENT_USER)
rc = deleteKey(userRoot, hkey, key);
if (rc != REG_SUCCESS)
throw new IllegalArgumentException("rc=" + rc + " key=" + key);
}
/**
* delete a value from a given key/value name
* @param hkey
* @param key
* @param value
* @throws IllegalArgumentException
* @throws IllegalAccessException
* @throws InvocationTargetException
*/
public static void deleteValue(int hkey, String key, String value)
throws IllegalArgumentException, IllegalAccessException, InvocationTargetException {
int rc = -1;
if (hkey == HKEY_LOCAL_MACHINE)
rc = deleteValue(systemRoot, hkey, key, value);
else if (hkey == HKEY_CURRENT_USER)
rc = deleteValue(userRoot, hkey, key, value);
if (rc != REG_SUCCESS)
throw new IllegalArgumentException("rc=" + rc + " key=" + key + " value=" + value);
}
// =====================
private static int deleteValue(Preferences root, int hkey, String key, String value)
throws IllegalArgumentException, IllegalAccessException, InvocationTargetException {
int[] handles = (int[]) regOpenKey.invoke(root, new Object[] {new Integer(hkey), toCstr(key), new Integer(KEY_ALL_ACCESS)});
if (handles[1] != REG_SUCCESS)
return handles[1]; // can be REG_NOTFOUND, REG_ACCESSDENIED
int rc =((Integer) regDeleteValue.invoke(root, new Object[] {new Integer(handles[0]), toCstr(value)})).intValue();
regCloseKey.invoke(root, new Object[] { new Integer(handles[0])});
return rc;
}
private static int deleteKey(Preferences root, int hkey, String key)
throws IllegalArgumentException, IllegalAccessException, InvocationTargetException {
int rc =((Integer) regDeleteKey.invoke(root, new Object[] {new Integer(hkey), toCstr(key)})).intValue();
return rc; // can REG_NOTFOUND, REG_ACCESSDENIED, REG_SUCCESS
}
private static String valueForKey(Preferences root, int hkey, String path, String key)
throws IllegalArgumentException, IllegalAccessException, InvocationTargetException, IOException {
int[] handles = (int[]) regOpenKey.invoke(root, new Object[] {new Integer(hkey), toCstr(path), new Integer(KEY_READ)});
if (handles[1] != REG_SUCCESS)
throw new IllegalArgumentException("The system can not find the specified path: '"+getParentKey(hkey)+"\\"+path+"'");
byte[] valb = (byte[]) regQueryValueEx.invoke(root, new Object[] {new Integer(handles[0]), toCstr(key)});
regCloseKey.invoke(root, new Object[] {new Integer(handles[0])});
return (valb != null ? parseValue(valb) : queryValueForKey(hkey, path, key));
}
private static String queryValueForKey(int hkey, String path, String key) throws IOException {
return queryValuesForPath(hkey, path).get(key);
}
private static Map<String,String> valuesForPath(Preferences root, int hkey, String path)
throws IllegalArgumentException, IllegalAccessException, InvocationTargetException, IOException {
HashMap<String, String> results = new HashMap<String,String>();
int[] handles = (int[]) regOpenKey.invoke(root, new Object[] {new Integer(hkey), toCstr(path), new Integer(KEY_READ)});
if (handles[1] != REG_SUCCESS)
throw new IllegalArgumentException("The system can not find the specified path: '"+getParentKey(hkey)+"\\"+path+"'");
int[] info = (int[]) regQueryInfoKey.invoke(root, new Object[] {new Integer(handles[0])});
int count = info[2]; // Fixed: info[0] was being used here
int maxlen = info[4]; // while info[3] was being used here, causing wrong results
for(int index=0; index<count; index++) {
byte[] valb = (byte[]) regEnumValue.invoke(root, new Object[] {new Integer(handles[0]), new Integer(index), new Integer(maxlen + 1)});
String vald = parseValue(valb);
if(valb == null || vald.isEmpty())
return queryValuesForPath(hkey, path);
results.put(vald, valueForKey(root, hkey, path, vald));
}
regCloseKey.invoke(root, new Object[] {new Integer(handles[0])});
return results;
}
/**
* Searches recursively into the path to find the value for key. This method gives
* only first occurrence value of the key. If required to get all values in the path
* recursively for this key, then {@link #valuesForKeyPath(int hkey, String path, String key)}
* should be used.
* @param hkey
* @param path
* @param key
* @param list
* @return the value of given key obtained recursively
* @throws IllegalArgumentException
* @throws IllegalAccessException
* @throws InvocationTargetException
* @throws IOException
*/
public static String valueForKeyPath(int hkey, String path, String key)
throws IllegalArgumentException, IllegalAccessException, InvocationTargetException, IOException {
String val;
try {
val = valuesForKeyPath(hkey, path, key).get(0);
} catch(IndexOutOfBoundsException e) {
throw new IllegalArgumentException("The system can not find the key: '"+key+"' after "
+ "searching the specified path: '"+getParentKey(hkey)+"\\"+path+"'");
}
return val;
}
/**
* Searches recursively into given path for particular key and stores obtained value in list
* @param hkey
* @param path
* @param key
* @param list
* @return list containing values for given key obtained recursively
* @throws IllegalArgumentException
* @throws IllegalAccessException
* @throws InvocationTargetException
* @throws IOException
*/
public static List<String> valuesForKeyPath(int hkey, String path, String key)
throws IllegalArgumentException, IllegalAccessException, InvocationTargetException, IOException {
List<String> list = new ArrayList<String>();
if (hkey == HKEY_LOCAL_MACHINE)
return valuesForKeyPath(systemRoot, hkey, path, key, list);
else if (hkey == HKEY_CURRENT_USER)
return valuesForKeyPath(userRoot, hkey, path, key, list);
else
return valuesForKeyPath(null, hkey, path, key, list);
}
private static List<String> valuesForKeyPath(Preferences root, int hkey, String path, String key, List<String> list)
throws IllegalArgumentException, IllegalAccessException, InvocationTargetException, IOException {
if(!isDirectory(root, hkey, path)) {
takeValueInListForKey(hkey, path, key, list);
} else {
List<String> subKeys = subKeysForPath(root, hkey, path);
for(String subkey: subKeys) {
String newPath = path+"\\"+subkey;
if(isDirectory(root, hkey, newPath))
valuesForKeyPath(root, hkey, newPath, key, list);
takeValueInListForKey(hkey, newPath, key, list);
}
}
return list;
}
/**
* Takes value for key in list
* @param hkey
* @param path
* @param key
* @param list
* @throws IllegalArgumentException
* @throws IllegalAccessException
* @throws InvocationTargetException
* @throws IOException
*/
private static void takeValueInListForKey(int hkey, String path, String key, List<String> list)
throws IllegalArgumentException, IllegalAccessException, InvocationTargetException, IOException {
String value = valueForKey(hkey, path, key);
if(value != null)
list.add(value);
}
/**
* Checks if the path has more subkeys or not
* @param root
* @param hkey
* @param path
* @return true if path has subkeys otherwise false
* @throws IllegalArgumentException
* @throws IllegalAccessException
* @throws InvocationTargetException
*/
private static boolean isDirectory(Preferences root, int hkey, String path)
throws IllegalArgumentException, IllegalAccessException, InvocationTargetException {
return !subKeysForPath(root, hkey, path).isEmpty();
}
private static List<String> subKeysForPath(Preferences root, int hkey, String path)
throws IllegalArgumentException, IllegalAccessException, InvocationTargetException {
List<String> results = new ArrayList<String>();
int[] handles = (int[]) regOpenKey.invoke(root, new Object[] {new Integer(hkey), toCstr(path), new Integer(KEY_READ)});
if (handles[1] != REG_SUCCESS)
throw new IllegalArgumentException("The system can not find the specified path: '"+getParentKey(hkey)+"\\"+path+"'");
int[] info = (int[]) regQueryInfoKey.invoke(root, new Object[] {new Integer(handles[0])});
int count = info[0]; // Fix: info[2] was being used here with wrong results. Suggested by davenpcj, confirmed by Petrucio
int maxlen = info[3]; // value length max
for(int index=0; index<count; index++) {
byte[] valb = (byte[]) regEnumKeyEx.invoke(root, new Object[] {new Integer(handles[0]), new Integer(index), new Integer(maxlen + 1)});
results.add(parseValue(valb));
}
regCloseKey.invoke(root, new Object[] {new Integer(handles[0])});
return results;
}
private static int [] createKey(Preferences root, int hkey, String key)
throws IllegalArgumentException, IllegalAccessException, InvocationTargetException {
return (int[]) regCreateKeyEx.invoke(root, new Object[] {new Integer(hkey), toCstr(key)});
}
private static void writeStringValue(Preferences root, int hkey, String key, String valueName, String value)
throws IllegalArgumentException, IllegalAccessException, InvocationTargetException {
int[] handles = (int[]) regOpenKey.invoke(root, new Object[] {new Integer(hkey), toCstr(key), new Integer(KEY_ALL_ACCESS)});
regSetValueEx.invoke(root, new Object[] {new Integer(handles[0]), toCstr(valueName), toCstr(value)});
regCloseKey.invoke(root, new Object[] {new Integer(handles[0])});
}
/**
* Makes cmd query for the given hkey and path then executes the query
* @param hkey
* @param path
* @return the map containing all results in form of key(s) and value(s) obtained by executing query
* @throws IOException
*/
private static Map<String, String> queryValuesForPath(int hkey, String path) throws IOException {
String line;
StringBuilder builder = new StringBuilder();
Map<String, String> map = new HashMap<String, String>();
Process process = Runtime.getRuntime().exec("reg query \""+getParentKey(hkey)+"\\" + path + "\"");
BufferedReader reader = new BufferedReader(new InputStreamReader(process.getInputStream()));
while((line = reader.readLine()) != null) {
if(!line.contains("REG_"))
continue;
StringTokenizer tokenizer = new StringTokenizer(line, " \t");
while(tokenizer.hasMoreTokens()) {
String token = tokenizer.nextToken();
if(token.startsWith("REG_"))
builder.append("\t ");
else
builder.append(token).append(" ");
}
String[] arr = builder.toString().split("\t");
map.put(arr[0].trim(), arr[1].trim());
builder.setLength(0);
}
return map;
}
/**
* Determines the string equivalent of hkey
* @param hkey
* @return string equivalent of hkey
*/
private static String getParentKey(int hkey) {
if(hkey == HKEY_CLASSES_ROOT)
return CLASSES_ROOT;
else if(hkey == HKEY_CURRENT_USER)
return CURRENT_USER;
else if(hkey == HKEY_LOCAL_MACHINE)
return LOCAL_MACHINE;
return null;
}
/**
*Intern method which adds the trailing \0 for the handle with java.dll
* @param str String
* @return byte[]
*/
private static byte[] toCstr(String str) {
if(str == null)
str = "";
return (str += "\0").getBytes();
}
/**
* Method removes the trailing \0 which is returned from the java.dll (just if the last sign is a \0)
* @param buf the byte[] buffer which every read method returns
* @return String a parsed string without the trailing \0
*/
private static String parseValue(byte buf[]) {
if(buf == null)
return null;
String ret = new String(buf);
if(ret.charAt(ret.length()-1) == '\0')
return ret.substring(0, ret.length()-1);
return ret;
}
}
Przykład użycia metod jest następujący:
Poniższa metoda pobiera wartość klucza z podanej ścieżki:
String hex = WinRegistry.valueForKey(WinRegistry.HKEY_LOCAL_MACHINE, "SOFTWARE\\Microsoft\\Windows\\CurrentVersion\\WindowsUpdate\\Auto Update", "AUOptions");
Ta metoda pobiera wszystkie dane dla określonej ścieżki (w postaci kluczy i wartości):
Map<String, String> map = WinRegistry.valuesForPath(WinRegistry.HKEY_LOCAL_MACHINE, "SOFTWARE\\Microsoft\\Windows\\CurrentVersion\\WSMAN");
Ta metoda pobiera rekurencyjnie wartość klucza z podanej ścieżki:
String val = WinRegistry.valueForKeyPath(WinRegistry.HKEY_LOCAL_MACHINE, "System", "TypeID");
a ten pobiera rekurencyjnie wszystkie wartości klucza z podanej ścieżki:
List<String> list = WinRegistry.valuesForKeyPath(
WinRegistry.HKEY_LOCAL_MACHINE, //HKEY "SOFTWARE\\Wow6432Node\\Microsoft\\Windows\\CurrentVersion\\Uninstall", //path "DisplayName" //Key
);
Tutaj w powyższym kodzie odzyskałem wszystkie zainstalowane nazwy oprogramowania w systemie Windows.
Uwaga: Zobacz dokumentację tych metod
A ten pobiera wszystkie podklucze danej ścieżki:
List<String> list3 = WinRegistry.subKeysForPath(WinRegistry.HKEY_CURRENT_USER, "Software");
Ważna uwaga: w tym procesie zmodyfikowałem tylko metody celu odczytu, a nie metody celu pisania, takie jak createKey, deleteKey itp. Nadal są takie same, jak je otrzymałem.
Najlepszym sposobem zapisania do rejestru jest prawdopodobnie użycie reg import
natywnego polecenia systemu Windows i podanie mu ścieżki do .reg
pliku wygenerowanego przez wyeksportowanie czegoś z rejestru.
Odczytywanie odbywa się za pomocą reg query
polecenia. Zobacz także dokumentację:
https://technet.microsoft.com/en-us/library/cc742028.aspx
Dlatego poniższy kod powinien być zrozumiały:
import java.io.BufferedReader;
import java.io.File;
import java.io.FileNotFoundException;
import java.io.IOException;
import java.io.InputStreamReader;
public class WindowsRegistry
{
public static void importSilently(String regFilePath) throws IOException,
InterruptedException
{
if (!new File(regFilePath).exists())
{
throw new FileNotFoundException();
}
Process importer = Runtime.getRuntime().exec("reg import " + regFilePath);
importer.waitFor();
}
public static void overwriteValue(String keyPath, String keyName,
String keyValue) throws IOException, InterruptedException
{
Process overwriter = Runtime.getRuntime().exec(
"reg add " + keyPath + " /t REG_SZ /v \"" + keyName + "\" /d "
+ keyValue + " /f");
overwriter.waitFor();
}
public static String getValue(String keyPath, String keyName)
throws IOException, InterruptedException
{
Process keyReader = Runtime.getRuntime().exec(
"reg query \"" + keyPath + "\" /v \"" + keyName + "\"");
BufferedReader outputReader;
String readLine;
StringBuffer outputBuffer = new StringBuffer();
outputReader = new BufferedReader(new InputStreamReader(
keyReader.getInputStream()));
while ((readLine = outputReader.readLine()) != null)
{
outputBuffer.append(readLine);
}
String[] outputComponents = outputBuffer.toString().split(" ");
keyReader.waitFor();
return outputComponents[outputComponents.length - 1];
}
}
Jak zauważono, interfejs API Preferencji używa rejestru do przechowywania preferencji, ale nie można go użyć do uzyskania dostępu do całego rejestru.
Jednak pirat o nazwisku David Croft odkrył, że możliwe jest użycie metod w implementacji interfejsu API Preferencji przez Sun do odczytu rejestru Windows z Javy bez JNI . Istnieje pewne niebezpieczeństwo, ale warto to sprawdzić.
Istnieje niewielu dostawców usług JNDI do pracy z rejestrem Windows.
Można zaobserwować http://java.sun.com/products/jndi/serviceproviders.html .
Podejście API Preferencji nie daje dostępu do wszystkich gałęzi rejestru. W rzeczywistości daje ci tylko dostęp do tego, gdzie Preferencje API przechowuje swoje preferencje. To nie jest ogólny interfejs API do obsługi rejestru, taki jak .NET
Jak pokazuje Mark, czytać / pisać każdy klucz, myślę, że JNI lub narzędzie zewnętrzne to podejście.
Możesz spróbować WinRun4J . Jest to program uruchamiający java dla systemu Windows i host usług, ale zapewnia także bibliotekę umożliwiającą dostęp do rejestru.
(przy okazji pracuję nad tym projektem, więc daj mi znać, jeśli masz jakieś pytania)
Moja poprzednia edycja odpowiedzi @ David została odrzucona. Oto kilka przydatnych informacji na ten temat.
Ta „magia” działa, ponieważ Sun implementuje Preferences
klasę dla Windows jako część JDK, ale jest to pakiet prywatny . Części wdrożenia wykorzystują JNI.
java.util.prefs.WindowsPreferences
: http://grepcode.com/file/repository.grepcode.com/java/root/jdk/openjdk/7-b147/java/util/prefs/WindowsPreferences.javaImplementacja jest wybierana w czasie wykonywania przy użyciu metody fabrycznej tutaj: http://grepcode.com/file/repository.grepcode.com/java/root/jdk/openjdk/7-b147/java/util/prefs/Preferences.java# Preferences.0factory
Prawdziwe pytanie: dlaczego OpenJDK nie udostępnia tego API publicznie?
java.util.prefs
Pakiet stanowi drogę dla aplikacji do przechowywania i pobierania użytkownika i systemu preferencji i konfiguracji danych. Te dane preferencji będą przechowywane trwale w kopii zapasowej zależnej od implementacji. Na przykład w systemie operacyjnym Windows będzie przechowywany w rejestrze systemu Windows.
Do zapisu i odczytu tych danych używamy java.util.prefs.Preferences
klasy. Poniższy kod pokazuje, jak czytać i pisać do rejestru HKCU
oraz HKLM
w rejestrze.
import java.util.prefs.Preferences;
public class RegistryDemo {
public static final String PREF_KEY = "org.username";
public static void main(String[] args) {
//
// Write Preferences information to HKCU (HKEY_CURRENT_USER),
// HKCU\Software\JavaSoft\Prefs\org.username
//
Preferences userPref = Preferences.userRoot();
userPref.put(PREF_KEY, "xyz");
//
// Below we read back the value we've written in the code above.
//
System.out.println("Preferences = "
+ userPref.get(PREF_KEY, PREF_KEY + " was not found."));
//
// Write Preferences information to HKLM (HKEY_LOCAL_MACHINE),
// HKLM\Software\JavaSoft\Prefs\org.username
//
Preferences systemPref = Preferences.systemRoot();
systemPref.put(PREF_KEY, "xyz");
//
// Read back the value we've written in the code above.
//
System.out.println("Preferences = "
+ systemPref.get(PREF_KEY, PREF_KEY + " was not found."));
}
}
Jeszcze inna biblioteka ...
https://code.google.com/p/java-registry/
Ten uruchamia reg.exe pod przykryciem, odczytywanie / zapisywanie plików tymczasowych. Nie skończyłem z tym, ale wygląda na dość kompleksową implementację. Gdybym go użył, mógłbym zanurkować i dodać trochę lepszego zarządzania procesami potomnymi.
Chociaż jest to dość stare, ale wydaje mi się, że lepszym narzędziem do użycia na platformie Windows byłoby regini
:
Jedno wezwanie do przetworzenia:
Runtime.getRuntime().exec("regini <your script file abs path here>");
zrobi całą magię. Próbowałem, robiąc jar jako usługę Windows za pomocą servany.exe, który wymaga zmian w rejestrze w celu dodania argumentów javaw.exe i działa idealnie. Możesz przeczytać to: http://support.microsoft.com/kb/264584
To było szalone ... Wziąłem kod z jednego z postów tutaj, nie zauważyłem jeszcze 18 komentarzy, w których jeden stwierdził, że nie odczytuje wartości dword ...
W każdym razie przekształciłem piekło tego kodu w coś z mniejszą liczbą instrukcji i metod ...
Enum można trochę udoskonalić, ale gdy tylko walczyłem, by odczytać wartość liczbową lub tablicę bajtów, i zawiodłem, poddałem się ...
Oto on:
package com.nu.art.software.utils;
import java.lang.reflect.Method;
import java.util.HashMap;
import java.util.Map;
import java.util.ArrayList;
import java.util.List;
import java.util.prefs.Preferences;
/**
*
* @author TacB0sS
*/
public class WinRegistry_TacB0sS {
public static final class RegistryException
extends Exception {
private static final long serialVersionUID = -8799947496460994651L;
public RegistryException(String message, Throwable e) {
super(message, e);
}
public RegistryException(String message) {
super(message);
}
}
public static final int KEY_WOW64_32KEY = 0x0200;
public static final int KEY_WOW64_64KEY = 0x0100;
public static final int REG_SUCCESS = 0;
public static final int REG_NOTFOUND = 2;
public static final int REG_ACCESSDENIED = 5;
private static final int KEY_ALL_ACCESS = 0xf003f;
private static final int KEY_READ = 0x20019;
public enum WinRegistryKey {
User(Preferences.userRoot(), 0x80000001), ;
// System(Preferences.systemRoot(), 0x80000002);
private final Preferences preferencesRoot;
private final Integer key;
private WinRegistryKey(Preferences preferencesRoot, int key) {
this.preferencesRoot = preferencesRoot;
this.key = key;
}
}
private enum WinRegistryMethod {
OpenKey("WindowsRegOpenKey", int.class, byte[].class, int.class) {
@Override
protected void verifyReturnValue(Object retValue)
throws RegistryException {
int[] retVal = (int[]) retValue;
if (retVal[1] != REG_SUCCESS)
throw new RegistryException("Action Failed, Return Code: " + retVal[1]);
}
},
CreateKeyEx("WindowsRegCreateKeyEx", int.class, byte[].class) {
@Override
protected void verifyReturnValue(Object retValue)
throws RegistryException {
int[] retVal = (int[]) retValue;
if (retVal[1] != REG_SUCCESS)
throw new RegistryException("Action Failed, Return Code: " + retVal[1]);
}
},
DeleteKey("WindowsRegDeleteKey", int.class, byte[].class) {
@Override
protected void verifyReturnValue(Object retValue)
throws RegistryException {
int retVal = ((Integer) retValue).intValue();
if (retVal != REG_SUCCESS)
throw new RegistryException("Action Failed, Return Code: " + retVal);
}
},
DeleteValue("WindowsRegDeleteValue", int.class, byte[].class) {
@Override
protected void verifyReturnValue(Object retValue)
throws RegistryException {
int retVal = ((Integer) retValue).intValue();
if (retVal != REG_SUCCESS)
throw new RegistryException("Action Failed, Return Code: " + retVal);
}
},
CloseKey("WindowsRegCloseKey", int.class),
QueryValueEx("WindowsRegQueryValueEx", int.class, byte[].class),
EnumKeyEx("WindowsRegEnumKeyEx", int.class, int.class, int.class),
EnumValue("WindowsRegEnumValue", int.class, int.class, int.class),
QueryInfoKey("WindowsRegQueryInfoKey", int.class),
SetValueEx("WindowsRegSetValueEx", int.class, byte[].class, byte[].class);
private Method method;
private WinRegistryMethod(String methodName, Class<?>... classes) {
// WinRegistryKey.User.preferencesRoot.getClass().getMDeclaredMethods()
try {
method = WinRegistryKey.User.preferencesRoot.getClass().getDeclaredMethod(methodName, classes);
} catch (Exception e) {
System.err.println("Error");
System.err.println(e);
}
method.setAccessible(true);
}
public Object invoke(Preferences root, Object... objects)
throws RegistryException {
Object retValue;
try {
retValue = method.invoke(root, objects);
verifyReturnValue(retValue);
} catch (Throwable e) {
String params = "";
if (objects.length > 0) {
params = objects[0].toString();
for (int i = 1; i < objects.length; i++) {
params += ", " + objects[i];
}
}
throw new RegistryException("Error invoking method: " + method + ", with params: (" + params + ")", e);
}
return retValue;
}
protected void verifyReturnValue(Object retValue)
throws RegistryException {}
}
private WinRegistry_TacB0sS() {}
public static String readString(WinRegistryKey regKey, String key, String valueName)
throws RegistryException {
int retVal = ((int[]) WinRegistryMethod.OpenKey.invoke(regKey.preferencesRoot, regKey.key, toCstr(key),
new Integer(KEY_READ)))[0];
byte[] retValue = (byte[]) WinRegistryMethod.QueryValueEx.invoke(regKey.preferencesRoot, retVal,
toCstr(valueName));
WinRegistryMethod.CloseKey.invoke(regKey.preferencesRoot, retVal);
/*
* Should this return an Empty String.
*/
return (retValue != null ? new String(retValue).trim() : null);
}
public static Map<String, String> readStringValues(WinRegistryKey regKey, String key)
throws RegistryException {
HashMap<String, String> results = new HashMap<String, String>();
int retVal = ((int[]) WinRegistryMethod.OpenKey.invoke(regKey.preferencesRoot, regKey.key, toCstr(key),
new Integer(KEY_READ)))[0];
int[] info = (int[]) WinRegistryMethod.QueryInfoKey.invoke(regKey.preferencesRoot, retVal);
int count = info[2]; // count
int maxlen = info[3]; // value length max
for (int index = 0; index < count; index++) {
byte[] name = (byte[]) WinRegistryMethod.EnumValue.invoke(regKey.preferencesRoot, retVal,
new Integer(index), new Integer(maxlen + 1));
String value = readString(regKey, key, new String(name));
results.put(new String(name).trim(), value);
}
WinRegistryMethod.CloseKey.invoke(regKey.preferencesRoot, retVal);
return results;
}
public static List<String> readStringSubKeys(WinRegistryKey regKey, String key)
throws RegistryException {
List<String> results = new ArrayList<String>();
int retVal = ((int[]) WinRegistryMethod.OpenKey.invoke(regKey.preferencesRoot, regKey.key, toCstr(key),
new Integer(KEY_READ)))[0];
int[] info = (int[]) WinRegistryMethod.QueryInfoKey.invoke(regKey.preferencesRoot, retVal);
int count = info[0]; // Fix: info[2] was being used here with wrong results. Suggested by davenpcj, confirmed by
// Petrucio
int maxlen = info[3]; // value length max
for (int index = 0; index < count; index++) {
byte[] name = (byte[]) WinRegistryMethod.EnumValue.invoke(regKey.preferencesRoot, retVal,
new Integer(index), new Integer(maxlen + 1));
results.add(new String(name).trim());
}
WinRegistryMethod.CloseKey.invoke(regKey.preferencesRoot, retVal);
return results;
}
public static void createKey(WinRegistryKey regKey, String key)
throws RegistryException {
int[] retVal = (int[]) WinRegistryMethod.CreateKeyEx.invoke(regKey.preferencesRoot, regKey.key, toCstr(key));
WinRegistryMethod.CloseKey.invoke(regKey.preferencesRoot, retVal[0]);
}
public static void writeStringValue(WinRegistryKey regKey, String key, String valueName, String value)
throws RegistryException {
int retVal = ((int[]) WinRegistryMethod.OpenKey.invoke(regKey.preferencesRoot, regKey.key, toCstr(key),
new Integer(KEY_ALL_ACCESS)))[0];
WinRegistryMethod.SetValueEx.invoke(regKey.preferencesRoot, retVal, toCstr(valueName), toCstr(value));
WinRegistryMethod.CloseKey.invoke(regKey.preferencesRoot, retVal);
}
public static void deleteKey(WinRegistryKey regKey, String key)
throws RegistryException {
WinRegistryMethod.DeleteKey.invoke(regKey.preferencesRoot, regKey.key, toCstr(key));
}
public static void deleteValue(WinRegistryKey regKey, String key, String value)
throws RegistryException {
int retVal = ((int[]) WinRegistryMethod.OpenKey.invoke(regKey.preferencesRoot, regKey.key, toCstr(key),
new Integer(KEY_ALL_ACCESS)))[0];
WinRegistryMethod.DeleteValue.invoke(regKey.preferencesRoot, retVal, toCstr(value));
WinRegistryMethod.CloseKey.invoke(regKey.preferencesRoot, retVal);
}
// utility
private static byte[] toCstr(String str) {
byte[] result = new byte[str.length() + 1];
for (int i = 0; i < str.length(); i++) {
result[i] = (byte) str.charAt(i);
}
result[str.length()] = '\0';
return result;
}
}
UWAGA: NIE ODCZYTA ŻADNEGO INNEGO ALE CIĄGU !!!!!
Demo WinPack ma zaimplementowaną przeglądarkę rejestru jako przykład.
Sprawdź na stronie http://www.jniwrapper.com/winpack_features.jsp#registry
BTW, WinPack został przeniesiony na następujący adres:
Wykorzystuje to te same wewnętrzne interfejsy API Java, co w odpowiedzi Davida , ale napisałem to całkowicie. Jest teraz krótszy i przyjemniejszy w użyciu. Dodałem także obsługę HKEY_CLASSES_ROOT i innych uli. Nadal ma jednak pewne inne ograniczenia (takie jak brak obsługi DWORD i brak obsługi Unicode), które wynikają z bazowego API i są niestety nieuniknione przy takim podejściu. Mimo to, jeśli potrzebujesz tylko podstawowego odczytu / zapisu łańcucha i nie chcesz ładować natywnej biblioteki DLL, jest to przydatne.
Jestem pewien, że możesz wymyślić, jak go używać.
Domena publiczna. Baw się dobrze.
import java.util.*;
import java.lang.reflect.Method;
/**
* Simple registry access class implemented using some private APIs
* in java.util.prefs. It has no other prerequisites.
*/
public final class WindowsRegistry {
/**
* Tells if the Windows registry functions are available.
* (They will not be available when not running on Windows, for example.)
*/
public static boolean isAvailable() {
return initError == null;
}
/** Reads a string value from the given key and value name. */
public static String readValue(String keyName, String valueName) {
try (Key key = Key.open(keyName, KEY_READ)) {
return fromByteArray(invoke(regQueryValueEx, key.handle, toByteArray(valueName)));
}
}
/** Returns a map of all the name-value pairs in the given key. */
public static Map<String,String> readValues(String keyName) {
try (Key key = Key.open(keyName, KEY_READ)) {
int[] info = invoke(regQueryInfoKey, key.handle);
checkError(info[INFO_ERROR_CODE]);
int count = info[INFO_COUNT_VALUES];
int maxlen = info[INFO_MAX_VALUE_LENGTH] + 1;
Map<String,String> values = new HashMap<>();
for (int i = 0; i < count; i++) {
String valueName = fromByteArray(invoke(regEnumValue, key.handle, i, maxlen));
values.put(valueName, readValue(keyName, valueName));
}
return values;
}
}
/** Returns a list of the names of all the subkeys of a key. */
public static List<String> readSubkeys(String keyName) {
try (Key key = Key.open(keyName, KEY_READ)) {
int[] info = invoke(regQueryInfoKey, key.handle);
checkError(info[INFO_ERROR_CODE]);
int count = info[INFO_COUNT_KEYS];
int maxlen = info[INFO_MAX_KEY_LENGTH] + 1;
List<String> subkeys = new ArrayList<>(count);
for (int i = 0; i < count; i++) {
subkeys.add(fromByteArray(invoke(regEnumKeyEx, key.handle, i, maxlen)));
}
return subkeys;
}
}
/** Writes a string value with a given key and value name. */
public static void writeValue(String keyName, String valueName, String value) {
try (Key key = Key.open(keyName, KEY_WRITE)) {
checkError(invoke(regSetValueEx, key.handle, toByteArray(valueName), toByteArray(value)));
}
}
/** Deletes a value within a key. */
public static void deleteValue(String keyName, String valueName) {
try (Key key = Key.open(keyName, KEY_WRITE)) {
checkError(invoke(regDeleteValue, key.handle, toByteArray(valueName)));
}
}
/**
* Deletes a key and all values within it. If the key has subkeys, an
* "Access denied" error will be thrown. Subkeys must be deleted separately.
*/
public static void deleteKey(String keyName) {
checkError(invoke(regDeleteKey, keyParts(keyName)));
}
/**
* Creates a key. Parent keys in the path will also be created if necessary.
* This method returns without error if the key already exists.
*/
public static void createKey(String keyName) {
int[] info = invoke(regCreateKeyEx, keyParts(keyName));
checkError(info[INFO_ERROR_CODE]);
invoke(regCloseKey, info[INFO_HANDLE]);
}
/**
* The exception type that will be thrown if a registry operation fails.
*/
public static class RegError extends RuntimeException {
public RegError(String message, Throwable cause) {
super(message, cause);
}
}
// *************
// PRIVATE STUFF
// *************
private WindowsRegistry() {}
// Map of registry hive names to constants from winreg.h
private static final Map<String,Integer> hives = new HashMap<>();
static {
hives.put("HKEY_CLASSES_ROOT", 0x80000000); hives.put("HKCR", 0x80000000);
hives.put("HKEY_CURRENT_USER", 0x80000001); hives.put("HKCU", 0x80000001);
hives.put("HKEY_LOCAL_MACHINE", 0x80000002); hives.put("HKLM", 0x80000002);
hives.put("HKEY_USERS", 0x80000003); hives.put("HKU", 0x80000003);
hives.put("HKEY_CURRENT_CONFIG", 0x80000005); hives.put("HKCC", 0x80000005);
}
// Splits a path such as HKEY_LOCAL_MACHINE\Software\Microsoft into a pair of
// values used by the underlying API: An integer hive constant and a byte array
// of the key path within that hive.
private static Object[] keyParts(String fullKeyName) {
int x = fullKeyName.indexOf('\\');
String hiveName = x >= 0 ? fullKeyName.substring(0, x) : fullKeyName;
String keyName = x >= 0 ? fullKeyName.substring(x + 1) : "";
Integer hkey = hives.get(hiveName);
if (hkey == null) throw new RegError("Unknown registry hive: " + hiveName, null);
return new Object[] { hkey, toByteArray(keyName) };
}
// Type encapsulating a native handle to a registry key
private static class Key implements AutoCloseable {
final int handle;
private Key(int handle) {
this.handle = handle;
}
static Key open(String keyName, int accessMode) {
Object[] keyParts = keyParts(keyName);
int[] ret = invoke(regOpenKey, keyParts[0], keyParts[1], accessMode);
checkError(ret[INFO_ERROR_CODE]);
return new Key(ret[INFO_HANDLE]);
}
@Override
public void close() {
invoke(regCloseKey, handle);
}
}
// Array index constants for results of regOpenKey, regCreateKeyEx, and regQueryInfoKey
private static final int
INFO_HANDLE = 0,
INFO_COUNT_KEYS = 0,
INFO_ERROR_CODE = 1,
INFO_COUNT_VALUES = 2,
INFO_MAX_KEY_LENGTH = 3,
INFO_MAX_VALUE_LENGTH = 4;
// Registry access mode constants from winnt.h
private static final int
KEY_READ = 0x20019,
KEY_WRITE = 0x20006;
// Error constants from winerror.h
private static final int
ERROR_SUCCESS = 0,
ERROR_FILE_NOT_FOUND = 2,
ERROR_ACCESS_DENIED = 5;
private static void checkError(int e) {
if (e == ERROR_SUCCESS) return;
throw new RegError(
e == ERROR_FILE_NOT_FOUND ? "Key not found" :
e == ERROR_ACCESS_DENIED ? "Access denied" :
("Error number " + e), null);
}
// Registry access methods in java.util.prefs.WindowsPreferences
private static final Method
regOpenKey = getMethod("WindowsRegOpenKey", int.class, byte[].class, int.class),
regCloseKey = getMethod("WindowsRegCloseKey", int.class),
regQueryValueEx = getMethod("WindowsRegQueryValueEx", int.class, byte[].class),
regQueryInfoKey = getMethod("WindowsRegQueryInfoKey", int.class),
regEnumValue = getMethod("WindowsRegEnumValue", int.class, int.class, int.class),
regEnumKeyEx = getMethod("WindowsRegEnumKeyEx", int.class, int.class, int.class),
regSetValueEx = getMethod("WindowsRegSetValueEx", int.class, byte[].class, byte[].class),
regDeleteValue = getMethod("WindowsRegDeleteValue", int.class, byte[].class),
regDeleteKey = getMethod("WindowsRegDeleteKey", int.class, byte[].class),
regCreateKeyEx = getMethod("WindowsRegCreateKeyEx", int.class, byte[].class);
private static Throwable initError;
private static Method getMethod(String methodName, Class<?>... parameterTypes) {
try {
Method m = java.util.prefs.Preferences.systemRoot().getClass()
.getDeclaredMethod(methodName, parameterTypes);
m.setAccessible(true);
return m;
} catch (Throwable t) {
initError = t;
return null;
}
}
@SuppressWarnings("unchecked")
private static <T> T invoke(Method method, Object... args) {
if (initError != null)
throw new RegError("Registry methods are not available", initError);
try {
return (T)method.invoke(null, args);
} catch (Exception e) {
throw new RegError(null, e);
}
}
// Conversion of strings to/from null-terminated byte arrays.
// There is no support for Unicode; sorry, this is a limitation
// of the underlying methods that Java makes available.
private static byte[] toByteArray(String str) {
byte[] bytes = new byte[str.length() + 1];
for (int i = 0; i < str.length(); i++)
bytes[i] = (byte)str.charAt(i);
return bytes;
}
private static String fromByteArray(byte[] bytes) {
if (bytes == null) return null;
char[] chars = new char[bytes.length - 1];
for (int i = 0; i < chars.length; i++)
chars[i] = (char)((int)bytes[i] & 0xFF);
return new String(chars);
}
}
Pewnego dnia Java będzie miała wbudowany interfejs funkcji obcych dla łatwego dostępu do natywnych interfejsów API, a tego rodzaju włamanie nie będzie konieczne.
W odpowiedzi na odpowiedź Davida - zrobiłbym kilka ulepszeń:
import java.lang.reflect.InvocationTargetException;
import java.lang.reflect.Method;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.logging.Level;
import java.util.logging.Logger;
import java.util.prefs.Preferences;
public class WinRegistry {
public static final int HKEY_CURRENT_USER = 0x80000001,
HKEY_LOCAL_MACHINE = 0x80000002,
REG_SUCCESS = 0,
REG_NOTFOUND = 2,
REG_ACCESSDENIED = 5,
KEY_ALL_ACCESS = 0xf003f,
KEY_READ = 0x20019;
private static final Preferences userRoot = Preferences.userRoot(),
systemRoot = Preferences.systemRoot();
private static final Class<? extends Preferences> userClass = userRoot.getClass();
private static Method regOpenKey,
regCloseKey,
regQueryValueEx,
regEnumValue,
regQueryInfoKey,
regEnumKeyEx,
regCreateKeyEx,
regSetValueEx,
regDeleteKey,
regDeleteValue;
static {
try {
(regOpenKey = userClass.getDeclaredMethod("WindowsRegOpenKey", new Class[]{int.class, byte[].class, int.class})).setAccessible(true);
(regCloseKey = userClass.getDeclaredMethod("WindowsRegCloseKey", new Class[]{int.class})).setAccessible(true);
(regQueryValueEx = userClass.getDeclaredMethod("WindowsRegQueryValueEx", new Class[]{int.class, byte[].class})).setAccessible(true);
(regEnumValue = userClass.getDeclaredMethod("WindowsRegEnumValue", new Class[]{int.class, int.class, int.class})).setAccessible(true);
(regQueryInfoKey = userClass.getDeclaredMethod("WindowsRegQueryInfoKey1", new Class[]{int.class})).setAccessible(true);
(regEnumKeyEx = userClass.getDeclaredMethod("WindowsRegEnumKeyEx", new Class[]{int.class, int.class, int.class})).setAccessible(true);
(regCreateKeyEx = userClass.getDeclaredMethod("WindowsRegCreateKeyEx", new Class[]{int.class, byte[].class})).setAccessible(true);
(regSetValueEx = userClass.getDeclaredMethod("WindowsRegSetValueEx", new Class[]{int.class, byte[].class, byte[].class})).setAccessible(true);
(regDeleteValue = userClass.getDeclaredMethod("WindowsRegDeleteValue", new Class[]{int.class, byte[].class})).setAccessible(true);
(regDeleteKey = userClass.getDeclaredMethod("WindowsRegDeleteKey", new Class[]{int.class, byte[].class})).setAccessible(true);
} catch (NoSuchMethodException | SecurityException ex) {
Logger.getLogger(WinRegistry.class.getName()).log(Level.SEVERE, null, ex);
}
}
/**
* Read a value from key and value name
*
* @param hkey HKEY_CURRENT_USER/HKEY_LOCAL_MACHINE
* @param key
* @param valueName
* @return the value
* @throws IllegalArgumentException
* @throws IllegalAccessException
* @throws InvocationTargetException
*/
public static String readString(int hkey, String key, String valueName) throws IllegalArgumentException, IllegalAccessException, InvocationTargetException {
switch (hkey) {
case HKEY_LOCAL_MACHINE:
return readString(systemRoot, hkey, key, valueName);
case HKEY_CURRENT_USER:
return readString(userRoot, hkey, key, valueName);
default:
throw new IllegalArgumentException("hkey=" + hkey);
}
}
/**
* Read value(s) and value name(s) form given key
*
* @param hkey HKEY_CURRENT_USER/HKEY_LOCAL_MACHINE
* @param key
* @return the value name(s) plus the value(s)
* @throws IllegalArgumentException
* @throws IllegalAccessException
* @throws InvocationTargetException
*/
public static Map<String, String> readStringValues(int hkey, String key) throws IllegalArgumentException, IllegalAccessException, InvocationTargetException {
switch (hkey) {
case HKEY_LOCAL_MACHINE:
return readStringValues(systemRoot, hkey, key);
case HKEY_CURRENT_USER:
return readStringValues(userRoot, hkey, key);
default:
throw new IllegalArgumentException("hkey=" + hkey);
}
}
/**
* Read the value name(s) from a given key
*
* @param hkey HKEY_CURRENT_USER/HKEY_LOCAL_MACHINE
* @param key
* @return the value name(s)
* @throws IllegalArgumentException
* @throws IllegalAccessException
* @throws InvocationTargetException
*/
public static List<String> readStringSubKeys(int hkey, String key) throws IllegalArgumentException, IllegalAccessException, InvocationTargetException {
switch (hkey) {
case HKEY_LOCAL_MACHINE:
return readStringSubKeys(systemRoot, hkey, key);
case HKEY_CURRENT_USER:
return readStringSubKeys(userRoot, hkey, key);
default:
throw new IllegalArgumentException("hkey=" + hkey);
}
}
/**
* Create a key
*
* @param hkey HKEY_CURRENT_USER/HKEY_LOCAL_MACHINE
* @param key
* @throws IllegalArgumentException
* @throws IllegalAccessException
* @throws InvocationTargetException
*/
public static void createKey(int hkey, String key) throws IllegalArgumentException, IllegalAccessException, InvocationTargetException {
int[] ret;
switch (hkey) {
case HKEY_LOCAL_MACHINE:
ret = createKey(systemRoot, hkey, key);
regCloseKey.invoke(systemRoot, new Object[]{ret[0]});
break;
case HKEY_CURRENT_USER:
ret = createKey(userRoot, hkey, key);
regCloseKey.invoke(userRoot, new Object[]{ret[0]});
break;
default:
throw new IllegalArgumentException("hkey=" + hkey);
}
if (ret[1] != REG_SUCCESS) {
throw new IllegalArgumentException("rc=" + ret[1] + " key=" + key);
}
}
/**
* Write a value in a given key/value name
*
* @param hkey
* @param key
* @param valueName
* @param value
* @throws IllegalArgumentException
* @throws IllegalAccessException
* @throws InvocationTargetException
*/
public static void writeStringValue(int hkey, String key, String valueName, String value) throws IllegalArgumentException, IllegalAccessException, InvocationTargetException {
switch (hkey) {
case HKEY_LOCAL_MACHINE:
writeStringValue(systemRoot, hkey, key, valueName, value);
break;
case HKEY_CURRENT_USER:
writeStringValue(userRoot, hkey, key, valueName, value);
break;
default:
throw new IllegalArgumentException("hkey=" + hkey);
}
}
/**
* Delete a given key
*
* @param hkey
* @param key
* @throws IllegalArgumentException
* @throws IllegalAccessException
* @throws InvocationTargetException
*/
public static void deleteKey(int hkey, String key) throws IllegalArgumentException, IllegalAccessException, InvocationTargetException {
int rc = -1;
switch (hkey) {
case HKEY_LOCAL_MACHINE:
rc = deleteKey(systemRoot, hkey, key);
break;
case HKEY_CURRENT_USER:
rc = deleteKey(userRoot, hkey, key);
}
if (rc != REG_SUCCESS) {
throw new IllegalArgumentException("rc=" + rc + " key=" + key);
}
}
/**
* delete a value from a given key/value name
*
* @param hkey
* @param key
* @param value
* @throws IllegalArgumentException
* @throws IllegalAccessException
* @throws InvocationTargetException
*/
public static void deleteValue(int hkey, String key, String value) throws IllegalArgumentException, IllegalAccessException, InvocationTargetException {
int rc = -1;
switch (hkey) {
case HKEY_LOCAL_MACHINE:
rc = deleteValue(systemRoot, hkey, key, value);
break;
case HKEY_CURRENT_USER:
rc = deleteValue(userRoot, hkey, key, value);
}
if (rc != REG_SUCCESS) {
throw new IllegalArgumentException("rc=" + rc + " key=" + key + " value=" + value);
}
}
private static int deleteValue(Preferences root, int hkey, String key, String value) throws IllegalArgumentException, IllegalAccessException, InvocationTargetException {
int[] handles = (int[]) regOpenKey.invoke(root, new Object[]{hkey, toCstr(key), KEY_ALL_ACCESS});
if (handles[1] != REG_SUCCESS) {
return handles[1];//Can be REG_NOTFOUND, REG_ACCESSDENIED
}
int rc = ((Integer) regDeleteValue.invoke(root, new Object[]{handles[0], toCstr(value)}));
regCloseKey.invoke(root, new Object[]{handles[0]});
return rc;
}
private static int deleteKey(Preferences root, int hkey, String key) throws IllegalArgumentException, IllegalAccessException, InvocationTargetException {
int rc = ((Integer) regDeleteKey.invoke(root, new Object[]{hkey, toCstr(key)}));
return rc; //Can be REG_NOTFOUND, REG_ACCESSDENIED, REG_SUCCESS
}
private static String readString(Preferences root, int hkey, String key, String value) throws IllegalArgumentException, IllegalAccessException, InvocationTargetException {
int[] handles = (int[]) regOpenKey.invoke(root, new Object[]{hkey, toCstr(key), KEY_READ});
if (handles[1] != REG_SUCCESS) {
return null;
}
byte[] valb = (byte[]) regQueryValueEx.invoke(root, new Object[]{handles[0], toCstr(value)});
regCloseKey.invoke(root, new Object[]{handles[0]});
return (valb != null ? new String(valb).trim() : null);
}
private static Map<String, String> readStringValues(Preferences root, int hkey, String key) throws IllegalArgumentException, IllegalAccessException, InvocationTargetException {
HashMap<String, String> results = new HashMap<>();
int[] handles = (int[]) regOpenKey.invoke(root, new Object[]{hkey, toCstr(key), KEY_READ});
if (handles[1] != REG_SUCCESS) {
return null;
}
int[] info = (int[]) regQueryInfoKey.invoke(root, new Object[]{handles[0]});
int count = info[0]; //Count
int maxlen = info[3]; //Max value length
for (int index = 0; index < count; index++) {
byte[] name = (byte[]) regEnumValue.invoke(root, new Object[]{handles[0], index, maxlen + 1});
String value = readString(hkey, key, new String(name));
results.put(new String(name).trim(), value);
}
regCloseKey.invoke(root, new Object[]{handles[0]});
return results;
}
private static List<String> readStringSubKeys(Preferences root, int hkey, String key) throws IllegalArgumentException, IllegalAccessException, InvocationTargetException {
List<String> results = new ArrayList<>();
int[] handles = (int[]) regOpenKey.invoke(root, new Object[]{hkey, toCstr(key), KEY_READ});
if (handles[1] != REG_SUCCESS) {
return null;
}
int[] info = (int[]) regQueryInfoKey.invoke(root, new Object[]{handles[0]});
int count = info[0];//Count
int maxlen = info[3]; //Max value length
for (int index = 0; index < count; index++) {
byte[] name = (byte[]) regEnumKeyEx.invoke(root, new Object[]{handles[0], index, maxlen + 1});
results.add(new String(name).trim());
}
regCloseKey.invoke(root, new Object[]{handles[0]});
return results;
}
private static int[] createKey(Preferences root, int hkey, String key) throws IllegalArgumentException, IllegalAccessException, InvocationTargetException {
return (int[]) regCreateKeyEx.invoke(root, new Object[]{hkey, toCstr(key)});
}
private static void writeStringValue(Preferences root, int hkey, String key, String valueName, String value) throws IllegalArgumentException, IllegalAccessException, InvocationTargetException {
int[] handles = (int[]) regOpenKey.invoke(root, new Object[]{hkey, toCstr(key), KEY_ALL_ACCESS});
regSetValueEx.invoke(root, new Object[]{handles[0], toCstr(valueName), toCstr(value)});
regCloseKey.invoke(root, new Object[]{handles[0]});
}
private static byte[] toCstr(String str) {
byte[] result = new byte[str.length() + 1];
for (int i = 0; i < str.length(); i++) {
result[i] = (byte) str.charAt(i);
}
result[str.length()] = 0;
return result;
}
}
Możesz wykonać polecenie „REG QUERY” przy użyciu kodu Java .
Spróbuj wykonać to z wiersza polecenia i wykonać polecenie z kodu Java.
HKEY_LOCAL_MACHINE „SOFTWARE \ Microsoft \ Windows NT \ CurrentVersion”
Aby wyszukać szczegóły, takie jak wersja nazwy produktu itp., Użyj / v amd „nazwa”.
HKEY_LOCAL_MACHINE „SOFTWARE \ Microsoft \ Windows NT \ CurrentVersion” / v „ProductName”
Wolę używać klasy java.util.prefs.Preferences .
Prostym przykładem byłoby
// Write Operation
Preferences p = Preferences.userRoot();
p.put("key","value");
// also there are various other methods such as putByteArray(), putDouble() etc.
p.flush();
//Read Operation
Preferences p = Preferences.userRoot();
String value = p.get("key");
com.sun.deploy.association.utility.WinRegistryWrapper