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package javax.security.auth;
import java.security.Security;
import java.security.AccessController;
import java.security.PrivilegedAction;
import java.security.PrivilegedExceptionAction;
import java.util.Objects;
import sun.security.util.Debug;
This is an abstract class for representing the system policy for Subject-based authorization. A subclass implementation of this class provides a means to specify a Subject-based access control Policy.
A Policy object can be queried for the set of Permissions granted to code running as a Principal in the following manner:
policy = Policy.getPolicy();
PermissionCollection perms = policy.getPermissions(subject,
codeSource);
The Policy object consults the local policy and returns and appropriate Permissions object with the Permissions granted to the Principals associated with the provided subject, and granted to the code specified
by the provided codeSource.
A Policy contains the following information. Note that this example only represents the syntax for the default Policy implementation. Subclass implementations of this class may implement alternative syntaxes and may retrieve the Policy from any source such as files, databases, or servers.
Each entry in the Policy is represented as a grant entry. Each grant entry
specifies a codebase, code signers, and Principals triplet,
as well as the Permissions granted to that triplet.
grant CodeBase ["URL"], Signedby ["signers"],
Principal [Principal_Class] "Principal_Name" {
Permission Permission_Class ["Target_Name"]
[, "Permission_Actions"]
[, signedBy "SignerName"];
};
The CodeBase and Signedby components of the triplet name/value pairs
are optional. If they are not present, then any any codebase will match,
and any signer (including unsigned code) will match.
For Example,
grant CodeBase "foo.com", Signedby "foo",
Principal com.sun.security.auth.SolarisPrincipal "duke" {
permission java.io.FilePermission "/home/duke", "read, write";
};
This grant entry specifies that code from "foo.com", signed by "foo', and running as a SolarisPrincipal with the name, duke, has one Permission. This Permission permits the executing code to read and write files in the directory, "/home/duke". To "run" as a particular Principal, code invokes the Subject.doAs(subject, ...) method. After invoking that method, the code runs as all the Principals associated with the specified Subject. Note that this Policy (and the Permissions granted in this Policy) only become effective after the call to Subject.doAs has occurred.
Multiple Principals may be listed within one grant entry. All the Principals in the grant entry must be associated with the Subject provided to Subject.doAs for that Subject to be granted the specified Permissions.
grant Principal com.sun.security.auth.SolarisPrincipal "duke",
Principal com.sun.security.auth.SolarisNumericUserPrincipal "0" {
permission java.io.FilePermission "/home/duke", "read, write";
permission java.net.SocketPermission "duke.com", "connect";
};
This entry grants any code running as both "duke" and "0"
permission to read and write files in duke's home directory,
as well as permission to make socket connections to "duke.com".
Note that non Principal-based grant entries are not permitted in this Policy. Therefore, grant entries such as:
grant CodeBase "foo.com", Signedby "foo" {
permission java.io.FilePermission "/tmp/scratch", "read, write";
};
are rejected. Such permission must be listed in the java.security.Policy. The default Policy implementation can be changed by setting the value of the auth.policy.provider security property to the fully qualified name of the desired Policy implementation class.
See Also: Deprecated: as of JDK version 1.4 -- Replaced by java.security.Policy.
java.security.Policy has a method:
public PermissionCollection getPermissions
(java.security.ProtectionDomain pd)
and ProtectionDomain has a constructor:
public ProtectionDomain
(CodeSource cs,
PermissionCollection permissions,
ClassLoader loader,
Principal[] principals)
These two APIs provide callers the means to query the
Policy for Principal-based Permission entries.
/**
* <p> This is an abstract class for representing the system policy for
* Subject-based authorization. A subclass implementation
* of this class provides a means to specify a Subject-based
* access control {@code Policy}.
*
* <p> A {@code Policy} object can be queried for the set of
* Permissions granted to code running as a
* {@code Principal} in the following manner:
*
* <pre>
* policy = Policy.getPolicy();
* PermissionCollection perms = policy.getPermissions(subject,
* codeSource);
* </pre>
*
* The {@code Policy} object consults the local policy and returns
* and appropriate {@code Permissions} object with the
* Permissions granted to the Principals associated with the
* provided <i>subject</i>, and granted to the code specified
* by the provided <i>codeSource</i>.
*
* <p> A {@code Policy} contains the following information.
* Note that this example only represents the syntax for the default
* {@code Policy} implementation. Subclass implementations of this class
* may implement alternative syntaxes and may retrieve the
* {@code Policy} from any source such as files, databases,
* or servers.
*
* <p> Each entry in the {@code Policy} is represented as
* a <b><i>grant</i></b> entry. Each <b><i>grant</i></b> entry
* specifies a codebase, code signers, and Principals triplet,
* as well as the Permissions granted to that triplet.
*
* <pre>
* grant CodeBase ["URL"], Signedby ["signers"],
* Principal [Principal_Class] "Principal_Name" {
* Permission Permission_Class ["Target_Name"]
* [, "Permission_Actions"]
* [, signedBy "SignerName"];
* };
* </pre>
*
* The CodeBase and Signedby components of the triplet name/value pairs
* are optional. If they are not present, then any any codebase will match,
* and any signer (including unsigned code) will match.
* For Example,
*
* <pre>
* grant CodeBase "foo.com", Signedby "foo",
* Principal com.sun.security.auth.SolarisPrincipal "duke" {
* permission java.io.FilePermission "/home/duke", "read, write";
* };
* </pre>
*
* This <b><i>grant</i></b> entry specifies that code from "foo.com",
* signed by "foo', and running as a {@code SolarisPrincipal} with the
* name, duke, has one {@code Permission}. This {@code Permission}
* permits the executing code to read and write files in the directory,
* "/home/duke".
*
* <p> To "run" as a particular {@code Principal},
* code invokes the {@code Subject.doAs(subject, ...)} method.
* After invoking that method, the code runs as all the Principals
* associated with the specified {@code Subject}.
* Note that this {@code Policy} (and the Permissions
* granted in this {@code Policy}) only become effective
* after the call to {@code Subject.doAs} has occurred.
*
* <p> Multiple Principals may be listed within one <b><i>grant</i></b> entry.
* All the Principals in the grant entry must be associated with
* the {@code Subject} provided to {@code Subject.doAs}
* for that {@code Subject} to be granted the specified Permissions.
*
* <pre>
* grant Principal com.sun.security.auth.SolarisPrincipal "duke",
* Principal com.sun.security.auth.SolarisNumericUserPrincipal "0" {
* permission java.io.FilePermission "/home/duke", "read, write";
* permission java.net.SocketPermission "duke.com", "connect";
* };
* </pre>
*
* This entry grants any code running as both "duke" and "0"
* permission to read and write files in duke's home directory,
* as well as permission to make socket connections to "duke.com".
*
* <p> Note that non Principal-based grant entries are not permitted
* in this {@code Policy}. Therefore, grant entries such as:
*
* <pre>
* grant CodeBase "foo.com", Signedby "foo" {
* permission java.io.FilePermission "/tmp/scratch", "read, write";
* };
* </pre>
*
* are rejected. Such permission must be listed in the
* {@code java.security.Policy}.
*
* <p> The default {@code Policy} implementation can be changed by
* setting the value of the {@code auth.policy.provider} security property to
* the fully qualified name of the desired {@code Policy} implementation class.
*
* @deprecated as of JDK version 1.4 -- Replaced by java.security.Policy.
* java.security.Policy has a method:
* <pre>
* public PermissionCollection getPermissions
* (java.security.ProtectionDomain pd)
*
* </pre>
* and ProtectionDomain has a constructor:
* <pre>
* public ProtectionDomain
* (CodeSource cs,
* PermissionCollection permissions,
* ClassLoader loader,
* Principal[] principals)
* </pre>
*
* These two APIs provide callers the means to query the
* Policy for Principal-based Permission entries.
*
* @see java.security.Security security properties
*/
@Deprecated
public abstract class Policy {
private static Policy policy;
private final static String AUTH_POLICY =
"sun.security.provider.AuthPolicyFile";
private final java.security.AccessControlContext acc =
java.security.AccessController.getContext();
// true if a custom (not AUTH_POLICY) system-wide policy object is set
private static boolean isCustomPolicy;
Sole constructor. (For invocation by subclass constructors, typically
implicit.)
/**
* Sole constructor. (For invocation by subclass constructors, typically
* implicit.)
*/
protected Policy() { }
Returns the installed Policy object. This method first calls SecurityManager.checkPermission with the AuthPermission("getPolicy") permission to ensure the caller has permission to get the Policy object.
Throws: - SecurityException – if the current thread does not
have permission to get the Policy object.
See Also: Returns: the installed Policy. The return value cannot be null.
/**
* Returns the installed Policy object.
* This method first calls
* {@code SecurityManager.checkPermission} with the
* {@code AuthPermission("getPolicy")} permission
* to ensure the caller has permission to get the Policy object.
*
* <p>
*
* @return the installed Policy. The return value cannot be
* {@code null}.
*
* @exception java.lang.SecurityException if the current thread does not
* have permission to get the Policy object.
*
* @see #setPolicy
*/
public static Policy getPolicy() {
java.lang.SecurityManager sm = System.getSecurityManager();
if (sm != null) sm.checkPermission(new AuthPermission("getPolicy"));
return getPolicyNoCheck();
}
Returns the installed Policy object, skipping the security check.
Returns: the installed Policy.
/**
* Returns the installed Policy object, skipping the security check.
*
* @return the installed Policy.
*
*/
static Policy getPolicyNoCheck() {
if (policy == null) {
synchronized(Policy.class) {
if (policy == null) {
String policy_class = null;
policy_class = AccessController.doPrivileged
(new PrivilegedAction<String>() {
public String run() {
return java.security.Security.getProperty
("auth.policy.provider");
}
});
if (policy_class == null) {
policy_class = AUTH_POLICY;
}
try {
final String finalClass = policy_class;
Policy untrustedImpl = AccessController.doPrivileged(
new PrivilegedExceptionAction<Policy>() {
public Policy run() throws ClassNotFoundException,
InstantiationException,
IllegalAccessException {
Class<? extends Policy> implClass = Class.forName(
finalClass, false,
Thread.currentThread().getContextClassLoader()
).asSubclass(Policy.class);
return implClass.newInstance();
}
});
AccessController.doPrivileged(
new PrivilegedExceptionAction<Void>() {
public Void run() {
setPolicy(untrustedImpl);
isCustomPolicy = !finalClass.equals(AUTH_POLICY);
return null;
}
}, Objects.requireNonNull(untrustedImpl.acc)
);
} catch (Exception e) {
throw new SecurityException
(sun.security.util.ResourcesMgr.getString
("unable.to.instantiate.Subject.based.policy"));
}
}
}
}
return policy;
}
Sets the system-wide Policy object. This method first calls SecurityManager.checkPermission with the AuthPermission("setPolicy") permission to ensure the caller has permission to set the Policy.
Params: - policy – the new system Policy object.
Throws: - SecurityException – if the current thread does not
have permission to set the Policy.
See Also:
/**
* Sets the system-wide Policy object. This method first calls
* {@code SecurityManager.checkPermission} with the
* {@code AuthPermission("setPolicy")}
* permission to ensure the caller has permission to set the Policy.
*
* <p>
*
* @param policy the new system Policy object.
*
* @exception java.lang.SecurityException if the current thread does not
* have permission to set the Policy.
*
* @see #getPolicy
*/
public static void setPolicy(Policy policy) {
java.lang.SecurityManager sm = System.getSecurityManager();
if (sm != null) sm.checkPermission(new AuthPermission("setPolicy"));
Policy.policy = policy;
// all non-null policy objects are assumed to be custom
isCustomPolicy = policy != null ? true : false;
}
Returns true if a custom (not AUTH_POLICY) system-wide policy object
has been set or installed. This method is called by
SubjectDomainCombiner to provide backwards compatibility for
developers that provide their own javax.security.auth.Policy
implementations.
Returns: true if a custom (not AUTH_POLICY) system-wide policy object
has been set; false otherwise
/**
* Returns true if a custom (not AUTH_POLICY) system-wide policy object
* has been set or installed. This method is called by
* SubjectDomainCombiner to provide backwards compatibility for
* developers that provide their own javax.security.auth.Policy
* implementations.
*
* @return true if a custom (not AUTH_POLICY) system-wide policy object
* has been set; false otherwise
*/
static boolean isCustomPolicySet(Debug debug) {
if (policy != null) {
if (debug != null && isCustomPolicy) {
debug.println("Providing backwards compatibility for " +
"javax.security.auth.policy implementation: " +
policy.toString());
}
return isCustomPolicy;
}
// check if custom policy has been set using auth.policy.provider prop
String policyClass = java.security.AccessController.doPrivileged
(new java.security.PrivilegedAction<String>() {
public String run() {
return Security.getProperty("auth.policy.provider");
}
});
if (policyClass != null && !policyClass.equals(AUTH_POLICY)) {
if (debug != null) {
debug.println("Providing backwards compatibility for " +
"javax.security.auth.policy implementation: " +
policyClass);
}
return true;
}
return false;
}
Retrieve the Permissions granted to the Principals associated with the specified CodeSource.
Params: - subject – the
Subject whose associated Principals, in conjunction with the provided CodeSource, determines the Permissions returned by this method. This parameter may be null. - cs – the code specified by its
CodeSource that determines, in conjunction with the provided Subject, the Permissions returned by this method. This parameter may be null.
Returns: the Collection of Permissions granted to all the Subject and code specified in the provided subject and cs
parameters.
/**
* Retrieve the Permissions granted to the Principals associated with
* the specified {@code CodeSource}.
*
* <p>
*
* @param subject the {@code Subject}
* whose associated Principals,
* in conjunction with the provided
* {@code CodeSource}, determines the Permissions
* returned by this method. This parameter
* may be {@code null}. <p>
*
* @param cs the code specified by its {@code CodeSource}
* that determines, in conjunction with the provided
* {@code Subject}, the Permissions
* returned by this method. This parameter may be
* {@code null}.
*
* @return the Collection of Permissions granted to all the
* {@code Subject} and code specified in
* the provided <i>subject</i> and <i>cs</i>
* parameters.
*/
public abstract java.security.PermissionCollection getPermissions
(Subject subject,
java.security.CodeSource cs);
Refresh and reload the Policy.
This method causes this object to refresh/reload its current Policy. This is implementation-dependent. For example, if the Policy object is stored in a file, calling refresh will cause the file to be re-read.
Throws: - SecurityException – if the caller does not have permission
to refresh the Policy.
/**
* Refresh and reload the Policy.
*
* <p>This method causes this object to refresh/reload its current
* Policy. This is implementation-dependent.
* For example, if the Policy object is stored in
* a file, calling {@code refresh} will cause the file to be re-read.
*
* <p>
*
* @exception SecurityException if the caller does not have permission
* to refresh the Policy.
*/
public abstract void refresh();
}