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Two or more incompatible declarations of the same function or object must not appear in the same program because they result in undefined behavior. The C Standard, 6.2.7, mentions that two types may be distinct yet compatible and addresses precisely when two distinct types are compatible.

The C Standard identifies four situations in which undefined behavior (UB) may arise as a result of incompatible declarations of the same function or object:

UB

Description

Code

15

Two declarations of the same object or function specify types that are not compatible (6.2.7).

All noncompliant code in this guideline

31Two identifiers differ only in nonsignificant characters (6.4.2.1).Excessively Long Identifiers

37

An object has its stored value accessed other than by an lvalue of an allowable type (6.5).

Incompatible Object Declarations
Incompatible Array Declarations

41

A function is defined with a type that is not compatible with the type (of the expression) pointed to by the expression that denotes the called function (6.5.2.2).

Incompatible Function Declarations 
Excessively Long Identifiers

Although the effect of two incompatible declarations simply appearing in the same program may be benign on most implementations, the effects of invoking a function through an expression whose type is incompatible with the function definition are typically catastrophic. Similarly, the effects of accessing an object using an lvalue of a type that is incompatible with the object definition may range from unintended information exposure to memory overwrite to a hardware trap.

Noncompliant Code Example (Incompatible Object Declarations)

In this noncompliant code example, the variable i is declared to have type int in file a.c but defined to be of type short in file b.c. The declarations are incompatible, resulting in undefined behavior 15. Furthermore, accessing the object using an lvalue of an incompatible type, as shown in function f(), is undefined behavior 37 with possible observable results ranging from unintended information exposure to memory overwrite to a hardware trap.

/* In a.c */
extern int i;   /* UB 15 */

int f(void) {
  return ++i;   /* UB 37 */
}

/* In b.c */
short i;   /* UB 15 */

Compliant Solution (Incompatible Object Declarations)

This compliant solution has compatible declarations of the variable i:

/* In a.c */
extern int i;   

int f(void) {
  return ++i;   
}

/* In b.c */
int i;   

Noncompliant Code Example (Incompatible Array Declarations)

In this noncompliant code example, the variable a is declared to have a pointer type in file a.c but defined to have an array type in file b.c. The two declarations are incompatible, resulting in undefined behavior 15. As before, accessing the object in function f() is undefined behavior 37 with the typical effect of triggering a hardware trap.

/* In a.c */
extern int *a;   /* UB 15 */

int f(unsigned int i, int x) {
  int tmp = a[i];   /* UB 37: read access */
  a[i] = x;         /* UB 37: write access */
  return tmp;
}

/* In b.c */
int a[] = { 1, 2, 3, 4 };   /* UB 15 */

Compliant Solution (Incompatible Array Declarations)

This compliant solution declares a as an array in a.c and b.c:

/* In a.c */
extern int a[];   

int f(unsigned int i, int x) {
  int tmp = a[i];   
  a[i] = x;         
  return tmp;
}

/* In b.c */
int a[] = { 1, 2, 3, 4 };  

Noncompliant Code Example (Incompatible Function Declarations)

In this noncompliant code example, the function f() is declared in file a.c with one prototype but defined in file b.c with another. The two prototypes are incompatible, resulting in undefined behavior 15. Furthermore, invoking the function is undefined behavior 41 and typically has catastrophic consequences.

/* In a.c */
extern int f(int a);   /* UB 15 */

int g(int a) {
  return f(a);   /* UB 41 */
}

/* In b.c */
long f(long a) {   /* UB 15 */
  return a * 2;
}

Compliant Solution (Incompatible Function Declarations)

This compliant solution has compatible prototypes for the function f():

/* In a.c */
extern int f(int a);   

int g(int a) {
  return f(a);   
}

/* In b.c */
int f(int a) {   
  return a * 2;
}

Noncompliant Code Example (Incompatible Variadic Function Declarations)

In this noncompliant code example, the function buginf() is defined to take a variable number of arguments and expects them all to be signed integers with a sentinel value of -1:

/* In a.c */
void buginf(const char *fmt, ...) {
   /* ... */
}
 
/* In b.c */
void buginf();

Although this code appears to be well defined because of the prototype-less declaration of buginf(), it exhibits undefined behavior in accordance with the C Standard, 6.7.6.3, paragraph 15 [ISO/IEC 9899:2011],

For two function types to be compatible, both shall specify compatible return types. Moreover, the parameter type lists, if both are present, shall agree in the number of parameters and in use of the ellipsis terminator; corresponding parameters shall have compatible types. If one type has a parameter type list and the other type is specified by a function declarator that is not part of a function definition and that contains an empty identifier list, the parameter list shall not have an ellipsis terminator and the type of each parameter shall be compatible with the type that results from the application of the default argument promotions.

Compliant Solution (Incompatible Variadic Function Declarations)

In this compliant solution, the prototype for the function buginf() is included in the scope in the source file where it will be used:

/* In a.c */
void buginf(const char *fmt, ...) {
   /* ... */
}

/* In b.c */
void buginf(const char *fmt, ...);

Noncompliant Code Example (Excessively Long Identifiers)

/* In bashline.h */
/* UB 15, UB 31 */
extern char * bash_groupname_completion_function(const char *, int);

/* In a.c */
#include "bashline.h"

void f(const char *s, int i) {
  bash_groupname_completion_function(s, i);  /* UB 41 */
}

/* In b.c */
int bash_groupname_completion_funct;  /* UB 15, UB 31 */

NOTE: The identifier bash_groupname_completion_function referenced here was taken from GNU Bash, version 3.2.

Compliant Solution (Excessively Long Identifiers)

In this compliant solution, the length of the identifier declaring the function pointer bash_groupname_completion() in bashline.h is less than 32 characters. Consequently, it cannot clash with bash_groupname_completion_funct on any compliant platform.

/* In bashline.h */
extern char * bash_groupname_completion(const char *, int);   

/* In a.c */
#include "bashline.h"

void f(const char *s, int i) {
  bash_groupname_completion(s, i);  
}

/* In b.c */
int bash_groupname_completion_funct; 

Risk Assessment

Rule

Severity

Likelihood

Remediation Cost

Priority

Level

DCL40-C

Low

Unlikely

Medium

P2

L3

Automated Detection

Tool

Version

Checker

Description

Astrée
24.04

type-compatibility

type-compatibility-link

distinct-extern

Fully checked
Axivion Bauhaus Suite

7.2.0

CertC-DCL40Fully implemented
CodeSonar
8.1p0
LANG.STRUCT.DECL.IF
LANG.STRUCT.DECL.IO
Inconsistent function declarations
Inconsistent object declarations
Coverity
2017.07
MISRA C 2012 Rule 8.4Implemented
Cppcheck Premium

24.9.0

premium-cert-dcl40-cPartially implemented
Helix QAC

2024.3

C0776, C0778, C0779, C0789, C1510

C++1510

Fully implemented
Klocwork

2024.3

MISRA.FUNC.NOPROT.DEF.2012
MISRA.FUNC.PARAMS.IDENT

Fully implemented
LDRA tool suite8.5.4

1 X, 17 D

Partially implemented
Parasoft C/C++test

2023.1

CERT_C-DCL40-a
CERT_C-DCL40-b

All declarations of an object or function shall have compatible types
If objects or functions are declared more than once their types shall be compatible

Parasoft Insure++



Runtime analysis

PC-lint Plus

1.4

18, 621, 793, 4376

Fully supported

Polyspace Bug Finder

R2024a

CERT C: Rule DCL40-C




Checks for declaration mismatch (rule fully covered)

RuleChecker

24.04

type-compatibility

type-compatibility-link

distinct-extern

 

Fully checked
TrustInSoft Analyzer

1.38

incompatible declarationExhaustively verified.

Related Guidelines

Key here (explains table format and definitions)

Taxonomy

Taxonomy item

Relationship

ISO/IEC TS 17961Declaring the same function or object in incompatible ways [funcdecl]Prior to 2018-01-12: CERT: Unspecified Relationship
MISRA C:2012Rule 8.4 (required)Prior to 2018-01-12: CERT: Unspecified Relationship

Bibliography

[Hatton 1995]Section 2.8.3
[ISO/IEC 9899:2011]6.7.6.3, "Function Declarators (including Prototypes)"
J.2, "Undefined Behavior"



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