If a security manager is in force, the following conditions must be met to enable any software, including extension software, to perform security-sensitive operations:
- The security-sensitive code in the extension must be wrapped in a
PrivilegedAction
object.- The security policy implemented by the security manager must grant the appropriate permission to the extension. By default, installed extensions are granted all security permissions as if they were part of the core platform API. The permissions granted by the security policy apply only to code wrapped in the
PrivilegedAction
instance.Let's look at each of these conditions in a little more detail, with some examples.
Suppose that you want to modify theRectangleArea
class in the extension example of the previous lesson to write rectangle areas to a file rather than to stdout. Writing to a file, however, is a security-sensitive operation, so if your software is going to be running under a security manager, you'll need to mark your code as being privileged. There are two steps you need to take to do so:
- You need to place code that performs security-sensitive operations within the
run
method of an object of typejava.security.PrivilegedAction
.- You must use that
PrivilegedAction
object as the argument in a call to thedoPrivileged
method ofjava.security.AccessController
.If we apply those guidelines to the
RectangleArea
class, our class definition would look something like this:import java.io.*; import java.security.*; public final class RectangleArea { public static void writeArea(final java.awt.Rectangle r) { AccessController.doPrivileged(new PrivilegedAction() { public Object run() { try { int area = r.width * r.height; String userHome = System.getProperty("user.home"); FileWriter fw = new FileWriter( userHome + File.separator + "test" + File.separator + "area.txt"); fw.write("The rectangle's area is " + area); fw.flush(); fw.close(); } catch(IOException ioe) { System.err.println(ioe); } return null; } }); } }The single method in this class,
writeArea
, computes the area of a rectangle, and writes the area to a file calledarea.txt
in thetest
directory under the user's home directory.The security-sensitive statements dealing with the output file are placed within the
run
method of a new instance ofPrivilegedAction
. (Note thatrun
requires that anObject
instance be returned. The returned object can benull
.) The newPrivilegedAction
instance is then passed as an argument in a call toAccessController.doPrivileged
.For more information about using
doPrivileged
, see API for Privileged Blocks in the JDKTM documentation.Wrapping security-sensitive code in a
PrivilegedAction
object in this manner is the first requirement for enabling an extension to perform security-sensitive operations. The second requirement is: getting the security manager to grant the privileged code the appropriate permissions.
The security policy in force at runtime is specified by a policy file. The default policy is set by the filelib/security/java.policy
in the JRE software.The policy file assigns security privileges to software by using grant entries. The policy file can contain any number of grant entries. The default policy file has this grant entry for installed extensions:
This entry specifies that files in the directories specified bygrant codeBase "file:${{java.ext.dirs}}/*" { permission java.security.AllPermission; };file:${{java.ext.dirs}}/*
are to be granted the permission calledjava.security.AllPermission
. (Note that as of Java 6,java.ext.dirs
refers to a classpath-like path of directories, each of which can hold installed extensions.) It's not too hard to guess thatjava.security.AllPermission
grants installed extensions all the security privileges that it's possible to grant.By default, then, installed extensions have no security restrictions. Extension software can perform security-sensitive operations as if there were no security manager installed, provided that security-sensitive code is contained in an instance of
PrivilegedAction
passed as an argument in adoPrivileged
call.To limit the privileges granted to extensions, you need to modify the policy file. To deny all privileges to all extensions, you could simply remove the above grant entry.
Not all permissions are as comprehensive as the
java.security.AllPermission
granted by default. After deleting the default grant entry, you can enter a new grant entry for particular permissions, including:
java.awt.AWTPermission
java.io.FilePermission
java.net.NetPermission
java.util.PropertyPermission
java.lang.reflect.ReflectPermission
java.lang.RuntimePermission
java.security.SecurityPermission
java.io.SerializablePermission
java.net.SocketPermission
The Permissions in the JDK documentation provides details about each of these permissions. Let's look at those needed to use RectangleArea as an extension.
The
RectangleArea.writeArea
method needs two permissions: one to determine the path to the user's home directory, and the other to write to a file. Assuming that theRectangleArea
class is bundled in the filearea.jar
, you could grant write privileges by adding this entry to the policy file:Thegrant codeBase "file:${java.home}/lib/ext/area.jar" { permission java.io.PropertyPermission "user.home", "read"; permission java.io.FilePermission "${user.home}${/}test${/}*", "write"; };codeBase "file:${java.home}/lib/ext/area.jar"
part of this entry guarantees that any permissions specified by this entry will apply only to thearea.jar
. Thejava.io.PropertyPermission
permits access to properties. The first argument,"user.home"
, names the property, and the second argument,"read"
, indicates that the property can be read. (The other choice is"write"
.)The
java.io.FilePermission
permits access to files. The first argument,"${user.home}${/}test${/}*"
, indicates thatarea.jar
is being granted permission to access all files in thetest
directory that is in the user's home directory. (Note that${/}
is a platform-independent file separator.) The second argument indicates that the file access being granted is only for writing. (Other choices for the second argument are"read"
,"delete"
, and"execute"
.)
You can use the policy file to place additional restrictions on the permissions granted to extensions by requiring them to be signed by a trusted entity. (For a review of signing and verifying JAR files, see the Signing JAR Files lesson in this tutorial.)To allow signature verification of extensions or other software in conjunction with granting permissions, the policy file must contain a keystore entry. The keystore entry specifies which keystore is to be used in the verification. Keystore entries have the form
The URL keystore_url is either an absolute or relative. If it's relative, the URL is relative to the location of the policy file. For example, to use the default keystore used by keytool, add this entry to java.policykeystore "keystore_url";keystore "file://${user.home}/.keystore";To indicate that an extension must be signed in order to be granted security privileges, you use the
signedBy
field. For example, the following entry indicates that the extensionarea.jar
is to be granted the listed privileges only if it is signed by the users identified in the keystore by the aliases Robert and Rita:If thegrant signedBy "Robert,Rita", codeBase "file:${java.home}/lib/ext/area.jar" { permission java.io.PropertyPermission "user.home", "read"; permission java.io.FilePermission "${user.home}${/}test${/}*", "write"; };codeBase
field is omitted, as in the following "grant", the permissions are granted to any software, including installed or download extensions, that are signed by "Robert" or "Rita":grant signedBy "Robert,Rita" { permission java.io.FilePermission "*", "write"; };For further details about the policy file format, see section 3.3.1 of the Security Architecture Specification in the JDK documentation.