The final
keyword can be used to specify constant values (that is, values that cannot change during program execution). However, constants that can change over the lifetime of a program should not be declared public final. The Java Language Specification (JLS) [JLS 2013] allows implementations to insert the value of any public final field inline in any compilation unit that reads the field. Consequently, if the declaring class is edited so that the new version gives a different value for the field, compilation units that read the public final field could still see the old value until they are recompiled. This problem may occur, for example, when a third-party library is updated to the latest version but the referencing code is not recompiled.
A related error can arise when a programmer declares a static final
reference to a mutable object (see OBJ50-J. Never confuse the immutability of a reference with that of the referenced object for additional information).
Noncompliant Code Example
In this noncompliant code example, class Foo
in Foo.java
declares a field whose value represents the version of the software:
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class Foo {
public static final int VERSION = 1;
// ...
}
|
The field is subsequently accessed by class Bar
from a separate compilation unit (Bar.java
):
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class Bar {
public static void main(String[] args) {
System.out.println("You are using version " + Foo.VERSION);
}
}
|
When compiled and run, the software correctly prints
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You are using version 1
|
But if a developer were to change the value of VERSION
to 2 by modifying Foo.java
and subsequently recompile Foo.java
while failing to recompile Bar.java
, the software would incorrectly print
Code Block |
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You are using version 1
|
Although recompiling Bar.java
solves this problem, a better solution is available.
Compliant Solution
According to §13.4.9, "final
Fields and Constants," of the JLS [JLS 2013],
Literals that describe mathematical constants are often used to represent well established constants. This eliminates the need to use their actual values throughout the source code and reduces the possibility of committing frivolous errors. (See Guideline DCL02-J. Use meaningful symbolic constants to represent literal values in program logic for more information.)
If a mathematical constant is not declared static
, every instance of the class object will needlessly retain its own copy of the constant. Moreover, failing to declare a constant field final
can be counterproductive, as highlighted in guideline OBJ03-J. Do not use public static non-final variables. Disregarding this advice can expose the constants to pernicious thread safety issues.
At the same time, the use of {{static-final}} modifiers should not be abused. According to the Java Language Specification \[[JLS 2005|AA. Bibliography#JLS 05]\], Section 13.4.9, "{{final}} Fields and Constants" Wiki Markup
Other than for true mathematical constants, we recommend that source code make very sparing use of class variables that are declared
static
andfinal
. If the read-only nature offinal
is required, a better choice is to declare aprivate static
variable and a suitable accessor method to get its value.
Furthermore, when read only access is required, it recommends the following:
In this compliant solution, the version field in Foo.java
is declared private static and accessed by the getVersion()
method:
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class Foo {
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private static int version = N1; public static final int getNgetVersion() { return Nversion; } |
instead of
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public static final int N = // ...; |
Another pitfall arises when static-final
is inappropriately used to declare mutable data. (See guideline OBJ01-J. Be aware that a final reference may not always refer to immutable data.)
Noncompliant Code Example
}
|
The Bar
class in Bar.java
is modified to invoke the getVersion()
accessor method to retrieve the version
field from Foo.java
:This noncompliant code example does not qualify the constant value googol (10 raised to the power 100) with the static
and final
modifiers.
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class Bar { public BigDecimalstatic googol = BigDecimal.TEN.pow(100); // mathematical constant |
Compliant Solution
To be compliant, ensure that all mathematical constants are declared as static-final
.
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public static final BigDecimal googol = BigDecimal.TEN.pow(100);
|
Compliant Solution
This compliant solution ensures that all mathematical constants are declared as static-final
. Additionally, it provides read-only access to the constant by reducing its accessibility to private
and providing an accessor method.
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private static final BigDecimal googol = BigDecimal.TEN.pow(100);
public static BigDecimal getGoogol() { return googol; }
|
Exceptions
Wiki Markup |
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*DCL04-EX1*: According to the Java Language Specification \[[JLS 2005|AA. Bibliography#JLS 05]\], Section 9.3 "Field (Constant) Declarations": "Every field declaration in the body of an interface is implicitly {{public}}, {{static}}, and {{final}}. It is permitted to redundantly specify any or all of these modifiers for such fields." |
DCL04-EX2: Constants declared using the enum
type may violate this guideline.
Risk Assessment
Failing to declare mathematical constants static
and final
can lead to thread safety issues as well as inconsistent behavior.
Guideline | Severity | Likelihood | Remediation Cost | Priority | Level |
---|---|---|---|---|---|
DCL04-J | low | probable | high | P2 | L3 |
Automated Detection
TODO
Related Vulnerabilities
Search for vulnerabilities resulting from the violation of this rule on the CERT website.
Other Languages
This rule appears in the C Secure Coding Standard as DCL00-C. Const-qualify immutable objects.
References
Wiki Markup |
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\[[JLS 2005|AA. Bibliography#JLS 05]\] "13.4.9 final Fields and Constants", "9.3 Field (Constant) Declarations", "4.12.4 final Variables", "8.3.1.1 static Fields" |
void main(String[] args) {
System.out.println(
"You are using version " + Foo.getVersion());
}
}
|
In this solution, the private version value cannot be copied into the Bar
class when it is compiled, consequently preventing the bug. Note that this transformation imposes little or no performance penalty because most just-in-time (JIT) code generators can inline the getVersion()
method at runtime.
Applicability
Declaring a value that changes over the lifetime of the software as final may lead to unexpected results.
According to §9.3, "Field (Constant) Declarations," of the JLS [JLS 2013], "Every field declaration in the body of an interface is implicitly public
, static
, and final
. It is permitted to redundantly specify any or all of these modifiers for such fields." Therefore, this guideline does not apply to fields defined in interfaces. Clearly, if the value of a field in an interface changes, every class that implements or uses the interface must be recompiled (see MSC53-J. Carefully design interfaces before releasing them for more information).
Constants declared using the enum
type are permitted to violate this guideline.
Constants whose value never changes throughout the entire lifetime of the software may be declared as final. For instance, the JLS recommends that mathematical constants be declared final.
Bibliography
[JLS 2013] | §4.12.4, " |
...
DCL03-J. Properly encode relationships in constant definitions 03. Declarations and Initialization (DCL) DCL05-J. Do not attempt to assign to the loop variable in an enhanced for loop