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Function declarators must be declared with the appropriate type information, including a return type and parameter list. If type information is not properly specified in a function declarator, the compiler cannot properly check function type information. When using standard library calls, the easiest (and preferred) way to obtain function declarators with appropriate type information is to include the appropriate header file.

Attempting to compile a program with a function declarator that does not include the appropriate type information typically generates a warning but does not prevent program compilation. These warnings should be resolved. (See MSC00-C. Compile cleanly at high warning levels.)

Noncompliant Code Example (Non-Prototype-Format Declarators)

This noncompliant code example uses the identifier-list form for parameter declarations:

Code Block
bgColor#FFCCCC
langc
int max(a, b)
int a, b;
{
  return a > b ? a : b;
}

Subclause 6.11.7 of the C Standard [ISO/IEC 9899:2011] states that "the use of function definitions with separate parameter identifier and declaration lists (not prototype-format parameter type and identifier declarators) is an obsolescent feature."

Compliant Solution (Non-Prototype-Format Declarators)

In this compliant solution, int is the type specifier, max(int a, int b) is the function declarator, and the block within the curly braces is the function body:

Code Block
bgColor#ccccff
langc
int max(int a, int b) {
  return a > b ? a : b;
}

Noncompliant Code Example (Function Prototypes)

Declaring a function without any prototype forces the compiler to assume that the

Wiki Markup
C99 removed implicit function declarations from the C language \[[ISO/IEC9899-1999|AA. C References#ISO/IEC 9899-1999]\]. However, compilers will typically allow compilation of programs that contain implicitly defined functions, although they will issue a warning. These warnings should be resolved \[[MSC00-A|MSC00-A. Compile cleanly at high warning levels]\], but they will not prevent program compilation.

Failure to specify function prototypes results in a function being implicitly defined. Without a function prototype, the compiler will assume the the correct number and type of parameters have been supplied to a function. This practice can result in unintended and undefined , and perhaps unintended behavior. Given this, functions should always be declared with the appropriate function prototype.

Non-Compliant Code Example 1

In this noncompliant code example, the definition of func() in file_a.c expects three parameters but is supplied only two:

Code Block
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langc
/* file_a.c source file */
int func(int one, int two, int three){
  printf("%d %d %d", one, two, three);
  return 1;
}

However, because there is no prototype for func() in file_b.c, the compiler assumes that the correct number of parameters arguments has been supplied , and uses the next value on the program stack as the missing third parameter.argument:

Code Block
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langc
/* file_b.c source file */
func
function(1, 2);

C99 eliminated implicit function declarations from the C language. However, many compilers still allow the compilation of programs containing implicitly declared functions, although they may issue a warning message. These warnings should be resolved. (See MSC00-C. Compile cleanly at high warning levels.)

Compliant Solution (Function Prototypes)

This compliant solution correctly includes the function prototype for func() in the compilation unit in which it is invoked, and the function invocation has been corrected to pass the right number of arguments:

Code Block
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langc
/* file_b.c source file */
int func(int one, int two, int three){
  printf("%d %d %d", one, two, three);
  return 1;
}

Compliant Solution 1

To correct this example, the appropriate function prototype for func() should be specified.

Code Block
bgColor#ccccff

int function(int,int,int);
...

function(1,2);
...
int func(int one, int two, int three){
  printf("%d %d %d", one, two, three);
  return 1;
}

Non-Compliant Code Example 2

Code Block
bgColor#FFCCCC

function(1, 2);
...
int func(int one, int two, int three){
  printf("%d %d %d", one, two, three);
  return 1;
}

Examples of vulnerabilities with CVE entry number

CVE-2002-1236, CAN-2003-0422 - CGI crashes when called without any arguments

CVE-2002-1531, CAN-2002-1077 - crash in HTTP request without a Content-Length field

CAN-2002-1358 - empty elements/strings in protocol test suite affect many SSH2 servers/clients

CAN-2003-0477 - FTP server crashes in PORT command without an argument

CVE-2002-0107 - resultant infoleak in web server via GET requests without HTTP/1.0 version string

CAN-2002-0596 - GET reqeust with empty parameter leads to error message infoleak (path disclosure)

Risk Assesment

Rule

Severity

Likelihood

Remediation Cost

Priority

Level

DRAFT

2 (medium)

3 (likely)

2 (medium)

P12

L1

References

;

func(1, 2, 3);

Noncompliant Code Example (Function Pointers)

If a function pointer refers to an incompatible function, invoking that function via the pointer may corrupt the process stack. As a result, unexpected data may be accessed by the called function.

In this noncompliant code example, the function pointer fn_ptr refers to the function add(), which accepts three integer arguments. However, fn_ptr is specified to accept two integer arguments. Setting fn_ptr to refer to add() results in unexpected program behavior. This example also violates EXP37-C. Call functions with the correct number and type of arguments:

Code Block
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langc
int add(int x, int y, int z) {
  return x + y + z;
}

int main(int argc, char *argv[]) {
  int (*fn_ptr) (int, int);
  int res;
  fn_ptr = add;
  res = fn_ptr(2, 3);  /* Incorrect */
  /* ... */
  return 0;
}

Compliant Solution (Function Pointers)

To correct this example, the declaration of fn_ptr is changed to accept three arguments:

Code Block
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langc
int add(int x, int y, int z) {
  return x + y + z;
}

int main(int argc, char *argv[]) {
  int (*fn_ptr) (int, int, int) ;
  int res;
  fn_ptr = add;
  res = fn_ptr(2, 3, 4);
  /* ... */
  return 0;
}

Risk Assessment

Failing to include type information for function declarators can result in unexpected or unintended program behavior.

Recommendation

Severity

Likelihood

Remediation Cost

Priority

Level

DCL07-C

Low

Unlikely

Low

P3

L3

Automated Detection

Tool

Version

Checker

Description

Astrée
Include Page
Astrée_V
Astrée_V

function-prototype

implicit-function-declaration

Partially checked
Axivion Bauhaus Suite

Include Page
Axivion Bauhaus Suite_V
Axivion Bauhaus Suite_V

CertC-DCL07
CodeSonar
Include Page
CodeSonar_V
CodeSonar_V
LANG.FUNCS.PROT
LANG.STRUCT.DECL.IMPT
Incomplete function prototype
Implicit Type

ECLAIR

Include Page
ECLAIR_V
ECLAIR_V

CC2.DCL07

Fully implemented

GCC
Include Page
GCC_V
GCC_V


Can detect violation of this recommendation when the -Wstrict-prototypes flag is used

Helix QAC

Include Page
Helix QAC_V
Helix QAC_V

C1304, C2050, C3331, C3335, C3408, C3450


Klocwork
Include Page
Klocwork_V
Klocwork_V
MISRA.FUNC.PROT_FORM.KR.2012
MISRA.FUNC.NOPROT.DEF
MISRA.CAST.FUNC_PTR.2012

LDRA tool suite
Include Page
LDRA_V
LDRA_V

21 S
135 S
170 S

Fully implemented

PC-lint Plus

Include Page
PC-lint Plus_V
PC-lint Plus_V

718, 746, 936, 9074

Fully supported

Polyspace Bug Finder

Include Page
Polyspace Bug Finder_V
Polyspace Bug Finder_V

CERT C: Rec. DCL07-C


Checks for:

  • Cast between function pointers with different types
  • Function declared implicitly.

Rec. fully covered.

RuleChecker
Include Page
RuleChecker_V
RuleChecker_V

function-prototype

implicit-function-declaration

Partially checked
SonarQube C/C++ Plugin
Include Page
SonarQube C/C++ Plugin_V
SonarQube C/C++ Plugin_V
S819, S930

Related Vulnerabilities

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

Related Guidelines

ISO/IEC TR 24772:2013Type System [IHN]
Subprogram Signature Mismatch [OTR]
ISO/IEC TS 17961Using a tainted value as an argument to an unprototyped function pointer [taintnoproto]
MISRA C:2012

Rule 8.2 (required)

Bibliography

[ISO/IEC 9899:2011]Subclause 6.11.7, "Function Definitions"
[Spinellis 2006]Section 2.6.1, "Incorrect Routine or Arguments"


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