Callers can trivially access and modify public nonfinal static fields. Neither accesses nor modifications can be checked by a SecurityManager, and newly set values cannot be validated. Furthermore, multiple threads can modify nonfinal public static data in ways that are not consistent.
Noncompliant Code Example
This is an example from the JDK 1.4.2 software [[Function Table]].
package org.apache.xpath.compiler;
public class FunctionTable {
public static FuncLoader m_functions;
}
An attacker can replace the function table as follows:
FunctionTable.m_functions = <new_table>;
Replacing the function table gives the attacker access to the XPathContext used to evaluate XPath expressions. The XPathContext is used to set the reference node for evaluating XPath expressions. Manipulating this can cause unexpected behavior, and XML fields can be modified in inconsistent ways. Also, static variables are global across a Java runtime environment. They can be used as a communication channel between different application domains (e.g., by code loaded into different class loaders).
There are a few ways this problem can be avoided.
Compliant Solution
Treat public static fields as constants and declare them as final. Consider the use of enum types in the following example.
public class MyClass {
public static final int LEFT = 1;
public static final int RIGHT = 2;
}
The FuncLoader static instance in the noncompliant example could have been declared as final as below.
... public static final FuncLoader m_functions; ...
Compliant Solution
Additionally, for mutable static state one can define assessor methods and add appropriate security checks. Note that this is a different example and in this case the scope of the static variable has been changed to private.
public class MyClass {
private static byte[] data;
public static byte[] getData() {
return data.clone();
}
public static void setData(byte[] b) {
securityCheck();
data = b.clone();
}
}
As a cautionary note however, simply changing the modifier to final may not prevent attackers from indirectly retrieving an incorrect value from the static final variable before its initialization. See Eliminate Class Initialization Cycles for more on this problem.
Risk Assessment
Unauthorized modifications to public static variables can result in unexpected behavior and can bypass important security checks and/or invoke malicious code.
Rule |
Severity |
Likelihood |
Remediation Cost |
Priority |
Level |
|---|---|---|---|---|---|
OBJ31-J |
high |
likely |
low |
P9 |
L2 |
References
Avoiding Antipatterns Antipattern 5, Misusing Public Static Variables
Java Secure Coding Guidelines Section 3.1, Treat public static fields as constants
Function Table Field detail, public static FuncLoader m_functions
OBJ03-J. Be careful about final reference 06. Objects Orientation (OBJ) OBJ32-J. Do not allow partially initialized objects to be accessed