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Java's object cloning mechanism allows an attacker to manufacture new instances of a class by copying the memory images of existing objects rather than by executing the class' s constructor. Often this is an unacceptable way of creating new objects. An attacker can misuse the clone feature to manufacture multiple instances of a singleton class, create serious thread-safety issues by subclassing and cloning the subclass, bypass security checks within the constructor and violate the invariants of critical data.

Classes that have security checks in their constructors must beware of finalization attacks, as explained in guideline "OBJ05-J. Do not allow access to partially initialized objects."

Classes that are not sensitive, but that maintain other invariants must be sensitive to the possibility of malicious subclasses accessing or manipulating their data , and possibly invalidating their invariants. See guideline "OBJ08-J. Provide mutable classes with copy functionality to allow passing instances to untrusted code safely" for more information.

Noncompliant Code Example

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When a client requests a String instance by invoking the get() method, the shared flag is set. Operations that can modify the array are subsequently prohibited, to maintain the array's consistency with the returned String object. ConsequentlyAs a result, the replace() method designed to replace all elements of the array with an 'x' , cannot execute normally when the flag is set. Java's cloning feature provides a way to circumvent this constraint even though SensitiveClass does not implement the Cloneable interface.

This class can be exploited by a malicious class (shown below) , shown in the following noncompliant code example, that subclasses the non-final SensitiveClass and provides a public clone() method.

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The malicious class creates its own instance (ms1) and produces a second one (ms2) , by cloning the first. It then obtains a new String filename object by invoking the get() method on the first instance. At this point, the shared flag is set to true. Because the second instance (ms2) does not have its shared flag set to true, it is possible to alter the first instance ms1 using the replace() method. This obviates any security efforts and severely violates the class' s invariants.

Compliant Solution (final class)

The easiest way to prevent malicious subclasses is to declare SensitiveClass as to be final.

final class SensitiveClass {
  // ...
}

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Sensitive classes should not implement the Cloneable interface , nor provide a copy constructor. Sensitive classes that extend from a superclass that implements Cloneable (and is consequently cloneable as a result) must provide a clone() method that throws a CloneNotSupportedException. This exception must be caught and handled by the client code. A sensitive class that does not implement Cloneable must also follow this advice because it inherits the clone() method from Object. The class can prevent subclasses from being cloneable by defining a final clone() method that fails.

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This class fails to prevent malicious subclasses, but does protect the data in SensitiveClass. Its methods are protected by being declared final. For more information on how to handle malicious subclasses, see guideline "OBJ08-J. Provide mutable classes with copy functionality to allow passing instances to untrusted code safely."

Risk Assessment

Failure to make sensitive classes non-copyable can permit violations of class invariants and provide malicious subclasses with the opportunity to exploit the code to create new instances of objects, even in the presence of the default security manager (in the absence of custom security checks).

Related Vulnerabilities

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Bibliography

\[[Mcgraw 1998|AA. Bibliography#Mcgraw 98]\] Twelve rules for developing more secure Java code 
\[[MITRE 2009|AA. Bibliography#MITRE 09]\] [CWE ID 498|http://cwe.mitre.org/data/definitions/498.html] "Information Leak through Class Cloning", [CWE ID 491|http://cwe.mitre.org/data/definitions/491.html] "Public cloneable() Method Without Final (aka 'Object Hijack')"
\[[Wheeler 2003|AA. Bibliography#Wheeler 03]\] 10.6. Java 

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