- Direct Known Subclasses:
Most Permission objects also include an "actions" list that tells the actions
that are permitted for the object. For example,
java.io.FilePermission object, the permission name is
the pathname of a file (or directory), and the actions list
(such as "read, write") specifies which actions are granted for the
specified file (or for files in the specified directory).
The actions list is optional for Permission objects, such as
that don't need such a list; you either have the named permission (such
as "system.exit") or you don't.
An important method that must be implemented by each subclass is
implies method to compare Permissions. Basically,
"permission p1 implies permission p2" means that
if one is granted permission p1, one is naturally granted permission p2.
Thus, this is not an equality test, but rather more of a
Permission objects are similar to String objects in that they are immutable once they have been created. Subclasses should not provide methods that can change the state of a permission once it has been created.
Method SummaryModifier and TypeMethodDescription
voidImplements the guard interface for a permission.
abstract booleanChecks two Permission objects for equality.
abstract StringReturns the actions as a String.
getName()Returns the name of this Permission.
hashCode()Returns the hash code value for this Permission object.
abstract booleanChecks if the specified permission's actions are "implied by" this object's actions.Returns an empty PermissionCollection for a given Permission object, or null if one is not defined.
toString()Returns a string describing this Permission.
(String name)Constructs a permission with the specified name.
name- name of the Permission object being created.
checkGuardImplements the guard interface for a permission. The
SecurityManager.checkPermissionmethod is called, passing this permission object as the permission to check. Returns silently if access is granted. Otherwise, throws a SecurityException.
- Specified by:
object- the object being guarded (currently ignored).
SecurityException- if a security manager exists and its
checkPermissionmethod doesn't allow access.
- See Also:
impliespublic abstract boolean implies
(Permission permission)Checks if the specified permission's actions are "implied by" this object's actions.
This must be implemented by subclasses of Permission, as they are the only ones that can impose semantics on a Permission object.
impliesmethod is used by the AccessController to determine whether or not a requested permission is implied by another permission that is known to be valid in the current execution context.
permission- the permission to check against.
- true if the specified permission is implied by this object, false if not.
equalspublic abstract boolean equals
(Object obj)Checks two Permission objects for equality.
Do not use the
equalsmethod for making access control decisions; use the
hashCodepublic abstract int hashCode()Returns the hash code value for this Permission object.
hashCodebehavior for Permission Objects is the following:
- Whenever it is invoked on the same Permission object more than
once during an execution of a Java application, the
hashCodemethod must consistently return the same integer. This integer need not remain consistent from one execution of an application to another execution of the same application.
- If two Permission objects are equal according to the
equalsmethod, then calling the
hashCodemethod on each of the two Permission objects must produce the same integer result.
- Whenever it is invoked on the same Permission object more than once during an execution of a Java application, the
getNamepublic final String getName()Returns the name of this Permission. For example, in the case of a
java.io.FilePermission, the name will be a pathname.
- the name of this Permission.
getActionspublic abstract String getActions()Returns the actions as a String. This is abstract so subclasses can defer creating a String representation until one is needed. Subclasses should always return actions in what they consider to be their canonical form. For example, two FilePermission objects created via the following:
perm1 = new FilePermission(p1,"read,write"); perm2 = new FilePermission(p2,"write,read");both return "read,write" when the
getActionsmethod is invoked.
- the actions of this Permission.
newPermissionCollectionpublic PermissionCollection newPermissionCollection()Returns an empty PermissionCollection for a given Permission object, or null if one is not defined. Subclasses of class Permission should override this if they need to store their permissions in a particular PermissionCollection object in order to provide the correct semantics when the
PermissionCollection.impliesmethod is called. If null is returned, then the caller of this method is free to store permissions of this type in any PermissionCollection they choose (one that uses a Hashtable, one that uses a Vector, etc).
- a new PermissionCollection object for this type of Permission, or null if one is not defined.
toStringpublic String toString()Returns a string describing this Permission. The convention is to specify the class name, the permission name, and the actions in the following format: '("ClassName" "name" "actions")', or '("ClassName" "name")' if actions list is null or empty.