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* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation. Oracle designates this
* particular file as subject to the "Classpath" exception as provided
* by Oracle in the LICENSE file that accompanied this code.
*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
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*/
package javax.management.remote.rmi;
import java.security.ProtectionDomain;
/**
<p>A class loader that only knows how to define a limited number
of classes, and load a limited number of other classes through
delegation to another loader. It is used to get around a problem
with Serialization, in particular as used by RMI. The JMX Remote API
defines exactly what class loader must be used to deserialize arguments on
the server, and return values on the client. We communicate this class
loader to RMI by setting it as the context class loader. RMI uses the
context class loader to load classes as it deserializes, which is what we
want. However, before consulting the context class loader, it
looks up the call stack for a class with a non-null class loader,
and uses that if it finds one. So, in the standalone version of
javax.management.remote, if the class you're looking for is known
to the loader of jmxremote.jar (typically the system class loader)
then that loader will load it. This contradicts the class-loading
semantics required.
<p>We get around the problem by ensuring that the search up the
call stack will find a non-null class loader that doesn't load any
classes of interest, namely this one. So even though this loader
is indeed consulted during deserialization, it never finds the
class being deserialized. RMI then proceeds to use the context
class loader, as we require.
<p>This loader is constructed with the name and byte-code of one
or more classes that it defines, and a class-loader to which it
will delegate certain other classes required by that byte-code.
We construct the byte-code somewhat painstakingly, by compiling
the Java code directly, converting into a string, copying that
string into the class that needs this loader, and using the
stringToBytes method to convert it into the byte array. We
compile with -g:none because there's not much point in having
line-number information and the like in these directly-encoded
classes.
<p>The referencedClassNames should contain the names of all
classes that are referenced by the classes defined by this loader.
It is not necessary to include standard J2SE classes, however.
Here, a class is referenced if it is the superclass or a
superinterface of a defined class, or if it is the type of a
field, parameter, or return value. A class is not referenced if
it only appears in the throws clause of a method or constructor.
Of course, referencedClassNames should not contain any classes
that the user might want to deserialize, because the whole point
of this loader is that it does not find such classes.
*/
class NoCallStackClassLoader extends ClassLoader {
/** Simplified constructor when this loader only defines one class. */
public NoCallStackClassLoader(String className,
byte[] byteCode,
String[] referencedClassNames,
ClassLoader referencedClassLoader,
ProtectionDomain protectionDomain) {
this(new String[] {className}, new byte[][] {byteCode},
referencedClassNames, referencedClassLoader, protectionDomain);
}
public NoCallStackClassLoader(String[] classNames,
byte[][] byteCodes,
String[] referencedClassNames,
ClassLoader referencedClassLoader,
ProtectionDomain protectionDomain) {
super(null);
/* Validation. */
if (classNames == null || classNames.length == 0
|| byteCodes == null || classNames.length != byteCodes.length
|| referencedClassNames == null || protectionDomain == null)
throw new IllegalArgumentException();
for (int i = 0; i < classNames.length; i++) {
if (classNames[i] == null || byteCodes[i] == null)
throw new IllegalArgumentException();
}
for (int i = 0; i < referencedClassNames.length; i++) {
if (referencedClassNames[i] == null)
throw new IllegalArgumentException();
}
this.classNames = classNames;
this.byteCodes = byteCodes;
this.referencedClassNames = referencedClassNames;
this.referencedClassLoader = referencedClassLoader;
this.protectionDomain = protectionDomain;
}
/* This method is called at most once per name. Define the name
* if it is one of the classes whose byte code we have, or
* delegate the load if it is one of the referenced classes.
*/
@Override
protected Class<?> findClass(String name) throws ClassNotFoundException {
// Note: classNames is guaranteed by the constructor to be non-null.
for (int i = 0; i < classNames.length; i++) {
if (name.equals(classNames[i])) {
return defineClass(classNames[i], byteCodes[i], 0,
byteCodes[i].length, protectionDomain);
}
}
/* If the referencedClassLoader is null, it is the bootstrap
* class loader, and there's no point in delegating to it
* because it's already our parent class loader.
*/
if (referencedClassLoader != null) {
for (int i = 0; i < referencedClassNames.length; i++) {
if (name.equals(referencedClassNames[i]))
return referencedClassLoader.loadClass(name);
}
}
throw new ClassNotFoundException(name);
}
private final String[] classNames;
private final byte[][] byteCodes;
private final String[] referencedClassNames;
private final ClassLoader referencedClassLoader;
private final ProtectionDomain protectionDomain;
/**
* <p>Construct a <code>byte[]</code> using the characters of the
* given <code>String</code>. Only the low-order byte of each
* character is used. This method is useful to reduce the
* footprint of classes that include big byte arrays (e.g. the
* byte code of other classes), because a string takes up much
* less space in a class file than the byte code to initialize a
* <code>byte[]</code> with the same number of bytes.</p>
*
* <p>We use just one byte per character even though characters
* contain two bytes. The resultant output length is much the
* same: using one byte per character is shorter because it has
* more characters in the optimal 1-127 range but longer because
* it has more zero bytes (which are frequent, and are encoded as
* two bytes in classfile UTF-8). But one byte per character has
* two key advantages: (1) you can see the string constants, which
* is reassuring, (2) you don't need to know whether the class
* file length is odd.</p>
*
* <p>This method differs from {@link String#getBytes()} in that
* it does not use any encoding. So it is guaranteed that each
* byte of the result is numerically identical (mod 256) to the
* corresponding character of the input.
*/
public static byte[] stringToBytes(String s) {
final int slen = s.length();
byte[] bytes = new byte[slen];
for (int i = 0; i < slen; i++)
bytes[i] = (byte) s.charAt(i);
return bytes;
}
}
/*
You can use the following Emacs function to convert class files into
strings to be used by the stringToBytes method above. Select the
whole (defun...) with the mouse and type M-x eval-region, or save it
to a file and do M-x load-file. Then visit the *.class file and do
M-x class-string.
;; class-string.el
;; visit the *.class file with emacs, then invoke this function
(defun class-string ()
"Construct a Java string whose bytes are the same as the current
buffer. The resultant string is put in a buffer called *string*,
possibly with a numeric suffix like <2>. From there it can be
insert-buffer'd into a Java program."
(interactive)
(let* ((s (buffer-string))
(slen (length s))
(i 0)
(buf (generate-new-buffer "*string*")))
(set-buffer buf)
(insert "\"")
(while (< i slen)
(if (> (current-column) 61)
(insert "\"+\n\""))
(let ((c (aref s i)))
(insert (cond
((> c 126) (format "\\%o" c))
((= c ?\") "\\\"")
((= c ?\\) "\\\\")
((< c 33)
(let ((nextc (if (< (1+ i) slen)
(aref s (1+ i))
?\0)))
(cond
((and (<= nextc ?7) (>= nextc ?0))
(format "\\%03o" c))
(t
(format "\\%o" c)))))
(t c))))
(setq i (1+ i)))
(insert "\"")
(switch-to-buffer buf)))
Alternatively, the following class reads a class file and outputs a string
that can be used by the stringToBytes method above.
import java.io.File;
import java.io.FileInputStream;
import java.io.IOException;
public class BytesToString {
public static void main(String[] args) throws IOException {
File f = new File(args[0]);
int len = (int)f.length();
byte[] classBytes = new byte[len];
FileInputStream in = new FileInputStream(args[0]);
try {
int pos = 0;
for (;;) {
int n = in.read(classBytes, pos, (len-pos));
if (n < 0)
throw new RuntimeException("class file changed??");
pos += n;
if (pos >= n)
break;
}
} finally {
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