Making defensive copies of mutable method parameters mitigates against a variety of security vulnerabilities; see OBJ06-J. Defensively copy mutable inputs and mutable internal components for additional information. However, inappropriate use of the clone() method can allow an attacker to exploit vulnerabilities by providing arguments that appear normal but subsequently return unexpected values. Such objects may consequently bypass validation and security checks. When such a class might be passed as an argument to a method, treat the argument as untrusted, and do not use the clone() method provided by the class. Also, do not use the clone() method of nonfinal classes to make defensive copies.
This guideline is a specific instance of OBJ57-J. Do not rely on methods that can be overridden by untrusted code.
This noncompliant code example defines a validateValue() method that validates a time value:
private Boolean validateValue(long time) {
// Perform validation
return true; // If the time is valid
}
private void storeDateInDB(java.util.Date date) throws SQLException {
final java.util.Date copy = (java.util.Date)date.clone();
if (validateValue(copy.getTime())) {
Connection con = DriverManager.getConnection("jdbc:microsoft:sqlserver://<HOST>:1433","<UID>","<PWD>");
PreparedStatement pstmt = con.prepareStatement("UPDATE ACCESSDB SET TIME = ?");
pstmt.setLong(1, copy.getTime());
// ...
}
}
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The storeDateInDB() method accepts an untrusted date argument and attempts to make a defensive copy using its clone() method. This allows an attacker to take control of the program by creating a malicious date class that extends Date. If the attacker's code runs with the same privileges as storeDateInDB(), the attacker merely embeds malicious code inside their clone() method:
class MaliciousDate extends java.util.Date {
@Override
public MaliciousDate clone() {
// Malicious code goes here
}
}
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If, however, the attacker can only provide a malicious date with lessened privileges, the attacker can bypass validation but still confound the remainder of the program. Consider this example:
public class MaliciousDate extends java.util.Date {
private static int count = 0;
@Override
public long getTime() {
java.util.Date d = new java.util.Date();
return (count++ == 1) ? d.getTime() : d.getTime() - 1000;
}
}
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This malicious date will appear to be a benign date class the first time that getTime() is invoked. This allows it to bypass validation in the storeDateInDB() method. However, the time that is actually stored in the database will be incorrect.
Compliant Solution
This compliant solution avoids using the clone() method. Instead, it creates a new java.util.Date object that is subsequently used for access control checks and insertion into the database:
private void storeDateInDB(java.util.Date date) throws SQLException {
final java.util.Date copy = new java.util.Date(date.getTime());
if (validateValue(copy.getTime())) {
Connection con = DriverManager.getConnection("jdbc:microsoft:sqlserver://<HOST>:1433","<UID>","<PWD>");
PreparedStatement pstmt = con.prepareStatement("UPDATE ACCESSDB SET TIME = ?");
pstmt.setLong(1, copy.getTime());
// ...
}
}
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This noncompliant code example shows a constructor of the Java core class AtomicReferenceArray present in the Java 1.7.0 update 2:
public AtomicReferenceArray(E[] array) {
// Visibility guaranteed by final field guarantees
this.array = array.clone();
}
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This class was subsequently used by the Flashback exploit that infected 550,000 Macintosh computers in April 2012.1
In Java 1.7.0 update 3, the constructor was modified to use the Arrays.copyOf() method instead of the clone() method, as follows:
public AtomicReferenceArray(E[] array) {
// Visibility guaranteed by final field guarantees
this.array = Arrays.copyOf(array, array.length, Object[].class);
}
|
Using the clone() method to copy untrusted arguments affords attackers the opportunity to execute arbitrary code.
| Tool | Version | Checker | Description |
|---|---|---|---|
| Parasoft Jtest | CERT.MET52.CIFC | Only "clone()" instances of "final" classes |
| [Sterbenz 2006] | Secure Coding Antipatterns: Avoiding Vulnerabilities |
1 "Exploiting Java Vulnerability CVE-2012-0507 Using Metasploit" is shared by user BreakTheSec on Slideshare.net (July 14, 2012). www.slideshare.net/BreakTheSec/exploiting-java-vulnerability.
