EXP01-J. Never dereference null pointers

Null pointer dereferencing occurs when a variable bound to the null value is treated as if it were a valid object reference and used without checking its state. This condition results in a NullPointerException, which can in turn result in a denial of service. The denial of service is caused by the exception interrupting the program or thread, and probably causing it to terminate. Termination is likely because catching NullPointerExceptions is forbidden by ERR08-J. Do not catch NullPointerException or any of its ancestors.

Consequently, code must never dereference null pointers. Note that the context in which code is defined can impact the determination of conformance to this rule, as shown in the second Noncompliant Code Example and (corresponding) second Compliant Solution.

Noncompliant Code Example

This noncompliant example shows a bug in Tomcat version 4.1.24, initially discovered by Reasoning [[Reasoning 2003]]. The cardinality method was designed to return the number of occurrences of object obj in collection col. One valid use of the cardinality method is to determine how many objects in the collection are null. However, because membership in the collection is checked using the expression obj.equals(elt), a null pointer dereference is guaranteed whenever obj is null and elt is not null.

public static int cardinality(Object obj, final Collection col) {
  int count = 0;
  if (col == null) {
    return count;
  }
  Iterator it = col.iterator();
  while (it.hasNext()) {
    Object elt = it.next();
    if ((null == obj && null == elt) || obj.equals(elt)) {  // null pointer dereference
      count++;
    }
  }
  return count;
}

Compliant Solution

This compliant solution eliminates the null pointer dereference.

public static int cardinality(Object obj, final Collection col) {
  int count = 0;
  if (col == null) {
    return count;
  }
  Iterator it = col.iterator();
  while (it.hasNext()) {
    Object elt = it.next();
    if ((null == obj && null == elt) ||
        (null != obj && obj.equals(elt))) {
      count++;
    }
  }
  return count;
}

Explicit null checks as shown here an acceptable approach to eliminating null pointer dereferences.

Noncompliant Code Example

This noncompliant code example defines an isName() method that takes a String argument and returns true if the given string is a valid name. A valid name is defined as two capitalized words separated by one or more spaces.

public boolean isName(String s) {
  String names[] = s.split(" ");
  if (names.length != 2) {
    return false;
  }
  return (isCapitalized(names[0]) && isCapitalized(names[1]));
}

Method isName is not compliant with this rule because a null argument will result in isName dereferencing a null pointer.

Compliant Solution

This compliant solution demonstrates that the context in which code appears can impact its compliance. This example includes the same isName method as above, but this time as part of a more general method that tests string arguments. The isName() method is also now marked private.

public class Foo {
  private boolean isName(String s) {
    String names[] = s.split(" ");
    if (names.length != 2) {
      return false;
    }
    return (isCapitalized(names[0]) && isCapitalized(names[1]));
  }

  public boolean testString(String s) {
    if (s == null) return false;
    else return isName(s);
  }
}

In this example, we have made isName() a private method with only one caller in its containing class. The calling method, testString(), is written so as to guarantee that isName() is always called with a valid string reference. Therefore, the class as whole conforms with this rule, even though isName() in isolation does not. In general, inter-procedural reasoning of this sort is an acceptable approach to avoiding null pointer dereferences.

Exceptions

EXP01-EX0: A method may dereference an object-typed parameter without guarantee that it is a valid object reference provided that the method documents that it (potentially) throws a NullPointerException, either via the throws clause of the method or in the method comments.

Risk Assessment

Dereferencing a null pointer can lead to a denial of service. In multithreaded programs, null pointer dereferences can violate cache coherency policies and can cause resource leaks.

Automated Detection

Null pointer dereferences can happen in path-dependent ways. Limitations of automatic detection tools can require manual inspection of code [[Hovemeyer 2007]] to detect instances of null pointer dereferences. Annotations for method parameters that must be non-null can reduce the need for manual inspection by assisting automated null pointer dereference detection; use of these annotations is strongly encouraged.

Related Vulnerabilities

Java Web Start applications and applets particular to JDK version 1.6, prior to update 4, were affected by a bug that had some noteworthy security consequences. In some isolated cases, the application or applet's attempt to establish an HTTPS connection with a server generated a NullPointerException [[SDN 2008]]. The resulting failure to establish a secure HTTPS connection with the server caused a denial of service. Clients were temporarily forced to use an insecure HTTP channel for data exchange.

Related Guidelines

Bibliography

      02. Expressions (EXP)      EXP02-J. Use the two-argument Arrays.equals() method to compare the contents of arrays