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Deprecated

This rule has been deprecated.  It has been merged with:

10/07/2014 -- Version 2.0


Code that is never executed is known as dead code. Typically, the presence of dead code indicates that a logic error has occurred as a result of changes to a program or the program's environment. Dead code is usually optimized out of a program during compilation. However, to improve readability and ensure that logic errors are resolved, dead code should be identified, understood, and eliminated.

This recommendation is related to MSC12-C. Detect and remove code that has no effect or is never executed.

Noncompliant Code Example

This noncompliant code example demonstrates how dead code can be introduced into a program [Fortify 2006]. The second conditional statement, if (s), will never evaluate true because it requires that s not be assigned NULL, and the only path where s can be assigned a non-null value ends with a return statement.

int func(int condition) {
    char *s = NULL;
    if (condition) {
        s = (char *)malloc(10);
        if (s == NULL) {
           /* Handle Error */
        }
        /* Process s */
        return 0;
    }
    /* ... */
    if (s) {
        /* This code is never reached */
    }
    return 0;
}

Compliant Solution

Remediation of dead code requires the programmer to determine why the code is never executed and then to resolve the situation appropriately. To correct the preceding noncompliant code, the return is removed from the body of the first conditional statement.

int func(int condition) {
    char *s = NULL;
    if (condition) {
        s = (char *)malloc(10);
        if (s == NULL) {
           /* Handle error */
        }
        /* Process s */
    }
    /* ... */
    if (s) {
        /* This code is now reachable */
    }
    return 0;
}

Noncompliant Code Example

In this example, the strlen() function is used to limit the number of times the function s_loop() will iterate. The conditional statement inside the loop evaluates to true when the current character in the string is the null terminator. However, because strlen() returns the number of characters that precede the null terminator, the conditional statement never evaluates true.

int s_loop(char *s) {
    size_t i;
    size_t len = strlen(s);
    for (i=0; i < len; i++) {
        /* ... */
	  if (s[i] == '\0') {
	    /* This code is never reached */
      }
    }
    return 0;
}

Compliant Solution

Removing the dead code depends on the intent of the programmer. Assuming the intent is to flag and process the last character before the null terminator, the conditional is adjusted to correctly determine if the i refers to the index of the last character before the null terminator.

int s_loop(char *s) {
    size_t i;
    size_t len = strlen(s);
    for (i=0; i < len; i++) {
        /* ... */
	  if (s[i+1] == '\0') {
	    /* This code is now reached */
      }
    }
    return 0;
}

Exceptions

MSC07-C-EX1: In some situations, seemingly dead code may make software resilient. An example is the default label in a switch statement whose controlling expression has an enumerated type and that specifies labels for all enumerations of the type. (See MSC01-C. Strive for logical completeness.) Because valid values of an enumerated type include all those of its underlying integer type, unless enumeration constants are provided for all those values, the default label is appropriate and necessary.

typedef enum { Red, Green, Blue } Color;
const char* f(Color c) {
  switch (c) {
    case Red: return "Red";
    case Green: return "Green";
    case Blue: return "Blue";
    default: return "Unknown color";   /* Not dead code */
  }
}

void g() {
  Color unknown = (Color)123;
  puts(f(unknown));
}

MSC07-EX2: It is also permissible to temporarily remove code that may be needed later. (See MSC04-C. Use comments consistently and in a readable fashion for an illustration.)

Risk Assessment

The presence of dead code may indicate logic errors that can lead to unintended program behavior. The ways in which dead code can be introduced into a program and the effort required to remove it can be complex. As a result, resolving dead code can be an in-depth process requiring significant analysis.

Recommendation

Severity

Likelihood

Remediation Cost

Priority

Level

MSC07-C

Low

Unlikely

Medium

P2

L3

Automated Detection

Tool

Version

Checker

Description

CodeSonar
8.1p0

DIAG.UNEX.*
LANG.STRUCT.RC
LANG.STRUCT.UC

Code not exercised by analysis
Redundant condition
Unreachable {Call, Computation, Conditional, Control Flow, Data Flow}

Coverity

2017.07

DEADCODE


UNREACHABLE

Can detect the specific instance where code can never be reached because of a logical contradiction or a dead "default" in switch statement

Can detect the instances where code block is unreachable because of the syntactic structure of the code

GCC
4.3.5


Can detect violations of this recommendation when the -Wunreachable-code flag is used

Klocwork
2024.3

LA_UNUSED
UNREACH.GEN
UNREACH.RETURN
UNREACH.SIZEOF
INVARIANT_CONDITION.UNREACH


LDRA tool suite
9.7.1

1 J
139 S
140 S

Fully implemented

Parasoft C/C++test
2023.1

CERT_C-MSC07-a
CERT_C-MSC07-b
CERT_C-MSC07-c
CERT_C-MSC07-d
CERT_C-MSC07-e
CERT_C-MSC07-f
CERT_C-MSC07-g
CERT_C-MSC07-h

There shall be no unreachable code in "else" block
There shall be no unreachable code after 'return', 'break', 'continue', and 'goto' statements
There shall be no unreachable code in "if/else/while/for" block
There shall be no unreachable code in switch statement
There shall be no unreachable code in 'for' loop
There shall be no unreachable code after 'if' or 'switch' statement
There shall be no unreachable code after "if" or "switch" statement inside while/for/do...while loop
Avoid switch with unreachable branches

Polyspace Bug Finder

R2024a

Dead code

Missing case for switch condition

Unreachable code

MISRA C:2012 Rule 2.1

Code does not execute

Default case is missing and may be reached

Code following control-flow statements

A project shall not contain unreachable code

PRQA QA-C
Unable to render {include} The included page could not be found.

1501, 1503, 2008, 2877, 2880, 2881,

2882, 2883, 2980, 2981, 2982, 2983,

2984, 2985, 2986, 3202, 3203, 3205,

3206, 3207, 3210, 3219, 3229, 3404,

3422, 3423, 3425, 3470,

Fully implemented
SonarQube C/C++ Plugin
 3.11

S1763, S1751


Splint
3.1.1


Can detect violations of this recommendation when the -Wunreachable-code flag is used

Related Vulnerabilities

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

CVE-2014-1266 results from a violation of this rule. There is a spurious goto fail statement on line 631 of sslKeyExchange.c. This goto statement gets executed unconditionally, even though it is indented as if it were part of the preceding if statement. As a result, the call to sslRawVerify() (which would perform the actual signature verification) becomes dead code.  [ImperialViolet 2014]

Related Guidelines

SEI CERT C++ Coding StandardVOID MSC07-CPP. Detect and remove dead code
ISO/IEC TR 24772Unspecified functionality [BVQ]
Dead and deactivated code [XYQ]
MISRA C:2012Rule 2.1 (required)
MITRE CWECWE-561, Dead code

Bibliography

[Fortify 2006]Code Quality, "Dead Code"





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