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Wiki MarkupObjects that serve as keys in ordered sets and maps should be immutable. When some fields must be mutable, ensure that the {{equals equals(), hashCode()}} and {{, and compareTo()}} methods must consider only immutable state while when comparing objects. Violations of this rule can produce inconsistent orderings in collections. The documentation of {{java.util.Interface Set<E>}} and {{java.util.Interface Map<K,V>}} warn warns against this \[[API 2006|AA. Bibliography#API 06]\]:this. For example, the documentation for the Interface Map states [API 2014]:

Note: great care must be exercised [when] mutable objects are used as map keys. The behavior of a map is not specified if the value of an object is changed in a manner that affects equals comparisons while the object is a key in the map. A special case of this prohibition is that it is not permissible for a map to contain itself as a key. While it is permissible for a map to contain itself as a value, extreme caution is advised: the equals and hashCode methods are no longer well defined on such a map. Wiki MarkupNote: great care must be exercised \[when\] mutable objects are used as map keys. The behavior of a map is not specified if the value of an object is changed in a manner that affects {{equals}} comparisons while the object is a key in the map. A special case of this prohibition is that it is not permissible for a map to contain itself as a key. While it is permissible for a map to contain itself as a value, extreme caution is advised: the {{equals}} and {{hashCode}} methods are no longer well defined on such a map.

Noncompliant Code Example

This noncompliant code example defines a mutable class Employee that consists of the fields name and salary, whose values can be changed using the respective setters setEmployeeName() and setSalary() method. The equals() method is overridden to provide a comparison facility by employee name.

// Mutable class Employee
class Employee {
  private String name;
  private double salary;
 
  Employee(String empName, double empSalary) {
    this.name = empName;
    this.salary = empSalary;
  }
  
  public void setEmployeeName(String empName) {
    this.name = empName;
  }

  public 
  }

  // ...void setSalary(double empSalary) {
    this.salary = empSalary;
  }

  @Override
  public boolean equals(Object o) {
    if (!(o instanceof Employee)) {
      return false;
    }
      
    Employee emp = (Employee)o;
    return emp.name.equals(name);
  }

  public int hashCode() {/* ... */}

}

// Client code
Map<Employee, Calendar> map =
  new ConcurrentHashMap<Employee, Calendar>();
// ...

Use of the Employee object as a key for to the map is insecure because the properties of the object may could change after an ordering has been established. For example, a client may could modify the name field when the last name of an employee changes. ConsequentlyAs a result, clients may would observe non-deterministic nondeterministic behavior.

Compliant Solution

This compliant solution adds a final field employeeID that is immutable after initialization. The equals() method compares Employee objects on the basis of this field.

// Mutable class Employee
class Employee {
  private String name;
  private double salary;
  private final long employeeID;  // Unique for each Employee

  Employee(String name, double salary, long empID) {
    this.name = name;
    this.salary = salary;
    this.employeeID = empID;
  }
 
  // ...

  @Override
  public boolean equals(Object o) {
    if (!(o instanceof Employee)) {
      return false;
    }
      
    Employee emp = (Employee)o;
    return emp.employeeID == employeeID;
  } 
}

// Client code remains same
Map<Employee, Calendar> map =
  new ConcurrentHashMap<Employee, Calendar>();
// ... 

The Employee class can now be safely used as a key for the map in the client code.

Noncompliant Code Example

Many programmers are surprised by an instance of hash code mutability that arises because of serialization. The contract for the hashCode() method lacks any requirement that hash codes remain consistent across different executions of an application. Similarly, when an object is serialized and subsequently deserialized, its hash code after deserialization may be inconsistent with its original hash code.

This noncompliant code example uses the MyKey class as the key index for the Hashtable. The MyKey class overrides Object.equals() but uses the default Object.hashCode(). According to the Java API [API 2014] class Hashtable documentation:

To successfully store and retrieve objects from a hash table, the objects used as keys must implement the hashCode method and the equals method.

This noncompliant code example follows that advice but nevertheless can fail after serialization and deserialization. Consequently, it may be impossible to retrieve the value of the object after deserialization by using the original key.

class MyKey implements Serializable {
  // Does not override hashCode()
}

class HashSer {
  public static void main(String[] args)
                     throws IOException, ClassNotFoundException {
    Hashtable<MyKey,String> ht = new Hashtable<MyKey, String>();
    MyKey key = new MyKey();
    ht.put(key, "Value");
    System.out.println("Entry: " + ht.get(key));
    // Retrieve using the key, works

    // Serialize the Hashtable object
    FileOutputStream fos = new FileOutputStream("hashdata.ser");
    ObjectOutputStream oos = new ObjectOutputStream(fos);
    oos.writeObject(ht);
    oos.close();

    // Deserialize the Hashtable object
    FileInputStream fis = new FileInputStream("hashdata.ser");
    ObjectInputStream ois = new ObjectInputStream(fis);
    Hashtable<MyKey, String> ht_in =
        (Hashtable<MyKey, String>)(ois.readObject());
    ois.close();

    if (ht_in.contains("Value"))
      // Check whether the object actually exists in the hash table
      System.out.println("Value was found in deserialized object.");

    if (ht_in.get(key) == null) // Gets printed
      System.out.println(
          "Object was not found when retrieved using the key.");
  }
}

Compliant Solution

This compliant solution changes the type of the key value to be an Integer object. Consequently, key values remain consistent across multiple runs of the program, across serialization and deserialization, and also across multiple Java Virtual Machines.

class HashSer {
  public static void main(String[] args)
                     throws IOException, ClassNotFoundException {
    Hashtable<Integer, String> ht = new Hashtable<Integer, String>();
    ht.put(new Integer(1), "Value");
    System.out.println("Entry: " + ht.get(1)); // Retrieve using the key

    // Serialize the Hashtable object
    FileOutputStream fos = new FileOutputStream("hashdata.ser");
    ObjectOutputStream oos = new ObjectOutputStream(fos);
    oos.writeObject(ht);
    oos.close();

    // Deserialize the Hashtable object
    FileInputStream fis = new FileInputStream("hashdata.ser");
    ObjectInputStream ois = new ObjectInputStream(fis);
    Hashtable<Integer, String> ht_in =
        (Hashtable<Integer, String>)(ois.readObject());
    ois.close();

    if (ht_in.contains("Value"))
      // Check whether the object actually exists in the Hashtable
      System.out.println("Value was found in deserialized object.");

    if (ht_in.get(1) == null)  // Not printed
      System.out.println(
          "Object was not found when retrieved using the key.");
  }
}

This problem could also have been avoided by overriding the hashcode() method in the MyKey class, though it is best to avoid serializing hash tables that are known to use implementation-defined parameters.

Risk Assessment

Failure to ensure that the keys used in a comparison operation are immutable can lead to non-deterministic nondeterministic behavior.

Automated Detection

The Coverity Prevent Version 5.0 MUTABLE_COMPARISON checker Some available static analysis tools can detect the instances where the compareTo() method is reading from a non constant field. If the non-constant field is modified, the value of compareTo might change, which may break program invariants.

Related Vulnerabilities

Search for vulnerabilities resulting from the violation of this guideline on the CERT website.

Bibliography

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nonconstant field.

Bibliography

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