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The C standard allows an array variable to be declared both with a dimension index and with an initialization literal. The initialization literal also implies an array dimension, in the number of elements specified.

The size implied by an initialization literal is usually specified by the number of elements:

int array[] = {1, 2, 3}; /* 3-element array */

but it is possible to use designators to initialize array elements in a non-contiguous fashion. C99 Section 6.7.8, "Initialization" states [[ISO/IEC 9899:1999]]:

Space can be "allocated" from both ends of an array by using a single designator:

int a[MAX] = {
  1, 3, 5, 7, 9, [MAX-5] = 8, 6, 4, 2, 0
};

In the above, if MAX is greater than ten, there will be some zero-valued elements in the middle; if it is less than ten, some of the values provided by the first five initializers will be overridden by the second five.

C99 also dictates how array initialization is handled when the number of initialization elements does not equal the explicit array dimension. C99 Section 6.7.8, "Initialization", paragraph 21 states:

If there are fewer initializers in a brace-enclosed list than there are elements or members of an aggregate, or fewer characters in a string literal used to initialize an array of known size than there are elements in the array, the remainder of the aggregate shall be initialized implicitly the same as objects that have static storage duration.

and paragraph 22:

If an array of unknown size is initialized, its size is determined by the largest indexed element with an explicit initializer. At the end of its initializer list, the array no longer has incomplete type.

While compilers can compute the size of an array based on its initialization list, explicitly specifying the size of the array provides a redundancy check that the array's size is correct. It also enables compilers to emit warnings if the array's size is less than the size implied by the initialization.

Note that this recommendation does not apply to character arrays initialized with string literals, see STR36-C. Do not specify the dimension of a character array initialized with a string literal for more information.

Non-Compliant Code Example (Incorrect Size)

This non-compliant code example initializes an array of integers using an initialization with too many elements for the array.

int a[3] = {1, 2, 3, 4};

The size of the array a is three, although the size of the initialization is four. The last element of the initialization (4) is ignored. Most compilers will diagnose this error.

Implementation Details

This non-compliant code example generates a warning in gcc. Microsoft Visual Studio 2008 generates a fatal diagnostic: error C2078: too many initializers.

Non-Compliant Code Example (Implicit Size)

In this example, the compiler allocates an array of 4 integer elements, and sets the array bound to 4, since no bound is specified. However, if the initializer changes, the array bound may also change, causing unexpected results.

int a[] = {1, 2, 3, 4};

Compliant Solution

This compliant solution explicitly specifies the array dimension.

int a[4] = {1, 2, 3, 4};

Explicitly specifying the array dimension although it is implicitly defined by an initializer allows a compiler or other static analysis tool to issue a diagnostic if these values do not agree.

Risk Assessment

Recommendation

Severity

Likelihood

Remediation Cost

Priority

Level

ARR02-A

medium

unlikely

low

P6

L2

Related Vulnerabilities

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

References

[[ISO/IEC 9899:1999]] Section 6.7.8, "Initialization"


ARR01-A. Do not apply the sizeof operator to a pointer when taking the size of an array      06. Arrays (ARR)       ARR30-C. Guarantee that array indices are within the valid range

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