/* * @(#)AccessController.java 1.55 04/05/05 * * Copyright 2004 Sun Microsystems, Inc. All rights reserved. * SUN PROPRIETARY/CONFIDENTIAL. Use is subject to license terms. */ package java.security; import sun.security.util.Debug; /** *

The AccessController class is used for access control operations * and decisions. * *

More specifically, the AccessController class is used for * three purposes: * *

* *

The {@link #checkPermission(Permission) checkPermission} method * determines whether the access request indicated by a specified * permission should be granted or denied. A sample call appears * below. In this example, checkPermission will determine * whether or not to grant "read" access to the file named "testFile" in * the "/temp" directory. * * 

 * 
 *    FilePermission perm = new FilePermission("/temp/testFile", "read");
 *    AccessController.checkPermission(perm);
 * 
 *
* *

If a requested access is allowed, * checkPermission returns quietly. If denied, an * AccessControlException is * thrown. AccessControlException can also be thrown if the requested * permission is of an incorrect type or contains an invalid value. * Such information is given whenever possible. * * Suppose the current thread traversed m callers, in the order of caller 1 * to caller 2 to caller m. Then caller m invoked the * checkPermission method. * The checkPermission method determines whether access * is granted or denied based on the following algorithm: * * 

 * i = m;
 * 
 * while (i > 0) {
 * 
 *      if (caller i's domain does not have the permission)
 *              throw AccessControlException
 * 
 *      else if (caller i is marked as privileged) {
 *              if (a context was specified in the call to doPrivileged) 
 *                 context.checkPermission(permission)
 *              return;
 *      }
 *      i = i - 1;
 * };
 *
 *    // Next, check the context inherited when
 *    // the thread was created. Whenever a new thread is created, the
 *    // AccessControlContext at that time is
 *    // stored and associated with the new thread, as the "inherited"
 *    // context.
 * 
 * inheritedContext.checkPermission(permission);
 *
* *

A caller can be marked as being "privileged" * (see {@link #doPrivileged(PrivilegedAction) doPrivileged} and below). * When making access control decisions, the checkPermission * method stops checking if it reaches a caller that * was marked as "privileged" via a doPrivileged * call without a context argument (see below for information about a * context argument). If that caller's domain has the * specified permission, no further checking is done and * checkPermission * returns quietly, indicating that the requested access is allowed. * If that domain does not have the specified permission, an exception * is thrown, as usual. * *

The normal use of the "privileged" feature is as follows. If you * don't need to return a value from within the "privileged" block, do * the following: * * 

 *   somemethod() {
 *        ...normal code here...
 *        AccessController.doPrivileged(new PrivilegedAction() {
 *            public Object run() {
 *                // privileged code goes here, for example:
 *                System.loadLibrary("awt");
 *                return null; // nothing to return
 *            }
 *        });
  *       ...normal code here...
 *  }
 *
* *

* PrivilegedAction is an interface with a single method, named * run, that returns an Object. * The above example shows creation of an implementation * of that interface; a concrete implementation of the * run method is supplied. * When the call to doPrivileged is made, an * instance of the PrivilegedAction implementation is passed * to it. The doPrivileged method calls the * run method from the PrivilegedAction * implementation after enabling privileges, and returns the * run method's return value as the * doPrivileged return value (which is * ignored in this example). * *

If you need to return a value, you can do something like the following: * * 

 *   somemethod() {
 *        ...normal code here...
 *        String user = (String) AccessController.doPrivileged(
 *          new PrivilegedAction() {
 *            public Object run() {
 *                return System.getProperty("user.name");
 *            }
 *          }
 *        );
 *        ...normal code here...
 *  }
 *
* *

If the action performed in your run method could * throw a "checked" exception (those listed in the throws clause * of a method), then you need to use the * PrivilegedExceptionAction interface instead of the * PrivilegedAction interface: * * 

 *   somemethod() throws FileNotFoundException {
 *        ...normal code here...
 *      try {
 *        FileInputStream fis = (FileInputStream) AccessController.doPrivileged(
 *          new PrivilegedExceptionAction() {
 *            public Object run() throws FileNotFoundException {
 *                return new FileInputStream("someFile");
 *            }
 *          }
 *        );
 *      } catch (PrivilegedActionException e) {
 *        // e.getException() should be an instance of FileNotFoundException,
 *        // as only "checked" exceptions will be "wrapped" in a
 *        // PrivilegedActionException.
 *        throw (FileNotFoundException) e.getException();
 *      }
 *        ...normal code here...
 *  }
 *
* *

Be *very* careful in your use of the "privileged" construct, and * always remember to make the privileged code section as small as possible. * *

Note that checkPermission always performs security checks * within the context of the currently executing thread. * Sometimes a security check that should be made within a given context * will actually need to be done from within a * different context (for example, from within a worker thread). * The {@link #getContext() getContext} method and * AccessControlContext class are provided * for this situation. The getContext method takes a "snapshot" * of the current calling context, and places * it in an AccessControlContext object, which it returns. A sample call is * the following: * * 

 * 
 *   AccessControlContext acc = AccessController.getContext()
 * 
 *
* *

* AccessControlContext itself has a checkPermission method * that makes access decisions based on the context it encapsulates, * rather than that of the current execution thread. * Code within a different context can thus call that method on the * previously-saved AccessControlContext object. A sample call is the * following: * * 

 * 
 *   acc.checkPermission(permission)
 * 
 *
* *

There are also times where you don't know a priori which permissions * to check the context against. In these cases you can use the * doPrivileged method that takes a context: * * 

 *   somemethod() {
 *         AccessController.doPrivileged(new PrivilegedAction() {
 *              public Object run() {
 *                 // Code goes here. Any permission checks within this
 *                 // run method will require that the intersection of the
 *                 // callers protection domain and the snapshot's
 *                 // context have the desired permission.
 *              }
 *         }, acc);
 *         ...normal code here...
 *   }
 *
* * @see AccessControlContext * * @version 1.55 04/05/05 * @author Li Gong * @author Roland Schemers */ public final class AccessController { /** * Don't allow anyone to instantiate an AccessController */ private AccessController() { } /** * Performs the specified PrivilegedAction with privileges * enabled. The action is performed with all of the permissions * possessed by the caller's protection domain. *

* If the action's run method throws an (unchecked) exception, * it will propagate through this method. * * @param action the action to be performed. * * @return the value returned by the action's run method. * * @exception NullPointerException if the action is null * * @see #doPrivileged(PrivilegedAction,AccessControlContext) * @see #doPrivileged(PrivilegedExceptionAction) */ public static native T doPrivileged(PrivilegedAction action); /** * Performs the specified PrivilegedAction with privileges * enabled and restricted by the specified * AccessControlContext. * The action is performed with the intersection of the permissions * possessed by the caller's protection domain, and those possessed * by the domains represented by the specified * AccessControlContext. *

* If the action's run method throws an (unchecked) exception, * it will propagate through this method. * * @param action the action to be performed. * @param context an access control context * representing the restriction to be applied to the * caller's domain's privileges before performing * the specified action. If the context is * null, * then no additional restriction is applied. * * @return the value returned by the action's run method. * * @exception NullPointerException if the action is null * * @see #doPrivileged(PrivilegedAction) * @see #doPrivileged(PrivilegedExceptionAction,AccessControlContext) */ public static native T doPrivileged(PrivilegedAction action, AccessControlContext context); /** * Performs the specified PrivilegedExceptionAction with * privileges enabled. The action is performed with all of the * permissions possessed by the caller's protection domain. *

* If the action's run method throws an unchecked * exception, it will propagate through this method. * * @param action the action to be performed * * @return the value returned by the action's run method * * @exception PrivilegedActionException if the specified action's * run method threw a checked exception * @exception NullPointerException if the action is null * * @see #doPrivileged(PrivilegedAction) * @see #doPrivileged(PrivilegedExceptionAction,AccessControlContext) */ public static native T doPrivileged(PrivilegedExceptionAction action) throws PrivilegedActionException; /** * Performs the specified PrivilegedExceptionAction with * privileges enabled and restricted by the specified * AccessControlContext. The action is performed with the * intersection of the the permissions possessed by the caller's * protection domain, and those possessed by the domains represented by the * specified AccessControlContext. *

* If the action's run method throws an unchecked * exception, it will propagate through this method. * * @param action the action to be performed * @param context an access control context * representing the restriction to be applied to the * caller's domain's privileges before performing * the specified action. If the context is * null, * then no additional restriction is applied. * * @return the value returned by the action's run method * * @exception PrivilegedActionException if the specified action's * run method * threw a checked exception * @exception NullPointerException if the action is null * * @see #doPrivileged(PrivilegedAction) * @see #doPrivileged(PrivilegedExceptionAction,AccessControlContext) */ public static native T doPrivileged(PrivilegedExceptionAction action, AccessControlContext context) throws PrivilegedActionException; /** * Returns the AccessControl context. i.e., it gets * the protection domains of all the callers on the stack, * starting at the first class with a non-null * ProtectionDomain. * * @return the access control context based on the current stack or * null if there was only privileged system code. */ private static native AccessControlContext getStackAccessControlContext(); /** * Returns the "inherited" AccessControl context. This is the context * that existed when the thread was created. Package private so * AccessControlContext can use it. */ static native AccessControlContext getInheritedAccessControlContext(); /** * This method takes a "snapshot" of the current calling context, which * includes the current Thread's inherited AccessControlContext, * and places it in an AccessControlContext object. This context may then * be checked at a later point, possibly in another thread. * * @see AccessControlContext * * @return the AccessControlContext based on the current context. */ public static AccessControlContext getContext() { AccessControlContext acc = getStackAccessControlContext(); if (acc == null) { // all we had was privileged system code. We don't want // to return null though, so we construct a real ACC. return new AccessControlContext(null, true); } else { return acc.optimize(); } } /** * Determines whether the access request indicated by the * specified permission should be allowed or denied, based on * the security policy currently in effect. * This method quietly returns if the access request * is permitted, or throws a suitable AccessControlException otherwise. * * @param perm the requested permission. * * @exception AccessControlException if the specified permission * is not permitted, based on the current security policy. * @exception NullPointerException if the specified permission * is null and is checked based on the * security policy currently in effect. */ public static void checkPermission(Permission perm) throws AccessControlException { //System.err.println("checkPermission "+perm); //Thread.currentThread().dumpStack(); AccessControlContext stack = getStackAccessControlContext(); // if context is null, we had privileged system code on the stack. if (stack == null) { Debug debug = AccessControlContext.getDebug(); if (debug != null) { if (Debug.isOn("stack")) Thread.currentThread().dumpStack(); if (Debug.isOn("domain")) { debug.println("domain (context is null)"); } debug.println("access allowed "+perm); } return; } AccessControlContext acc = stack.optimize(); acc.checkPermission(perm); } }