While rule DCL50-CPP. Do not define a C-style variadic function forbids creation of such functions, they may still be defined when that function has external, C language linkage. Under these circumstances, care must be taken when invoking the va_start()
macro. The C-standard library macro va_start()
imposes several semantic restrictions on the type of the value of its second parameter. The C Standard, subclause 7.16.1.4, paragraph 4 [ISO/IEC 9899:2011], states the following:
The parameter parmN is the identifier of the rightmost parameter in the variable parameter list in the function definition (the one just before the
...
). If the parameter parmN is declared with theregister
storage class, with a function or array type, or with a type that is not compatible with the type that results after application of the default argument promotions, the behavior is undefined.
These restrictions are superseded by the C++ Standard, [support.runtime], paragraph 3 [ISO/IEC 14882-2014], which states the following:
The restrictions that ISO C places on the second parameter to the
va_start()
macro in header<stdarg.h>
are different in this International Standard. The parameterparmN
is the identifier of the rightmost parameter in the variable parameter list of the function definition (the one just before the...
). If the parameterparmN
is of a reference type, or of a type that is not compatible with the type that results when passing an argument for which there is no parameter, the behavior is undefined.
The primary differences between the semantic requirements are as follows:
- You must not pass a reference as the second argument to
va_start()
. - Passing an object of a class type that has a nontrivial copy constructor, nontrivial move constructor, or nontrivial destructor as the second argument to
va_start
is conditionally supported with implementation-defined semantics ([expr.call] paragraph 7). - You may pass a parameter declared with the
register
keyword ([dcl.stc] paragraph 3) or a parameter with a function type.
Passing an object of array type still produces undefined behavior in C++ because an array type as a function parameter requires the use of a reference, which is prohibited. Additionally, passing an object of a type that undergoes default argument promotions still produces undefined behavior in C++.
Noncompliant Code Example
In this noncompliant code example, the object passed to va_start()
will undergo a default argument promotion, which results in undefined behavior.
#include <cstdarg> extern "C" void f(float a, ...) { va_list list; va_start(list, a); // ... va_end(list); }
Compliant Solution
In this compliant solution, f()
accepts a double
instead of a float.
#include <cstdarg> extern "C" void f(double a, ...) { va_list list; va_start(list, a); // ... va_end(list); }
Noncompliant Code Example
In this noncompliant code example, a reference type is passed as the second argument to va_start().
#include <cstdarg> #include <iostream> extern "C" void f(int &a, ...) { va_list list; va_start(list, a); if (a) { std::cout << a << ", " << va_arg(list, int); a = 100; // Assign something to a for the caller } va_end(list); }
Compliant Solution
Instead of passing a reference type to f()
, this compliant solution passes a pointer type.
#include <cstdarg> #include <iostream> extern "C" void f(int *a, ...) { va_list list; va_start(list, a); if (a && *a) { std::cout << a << ", " << va_arg(list, int); *a = 100; // Assign something to *a for the caller } va_end(list); }
Noncompliant Code Example
In this noncompliant code example, a class with a nontrivial copy constructor (std::string
) is passed as the second argument to va_start()
, which is conditionally supported depending on the implementation.
#include <cstdarg> #include <iostream> #include <string> extern "C" void f(std::string s, ...) { va_list list; va_start(list, s); std::cout << s << ", " << va_arg(list, int); va_end(list); }
Compliant Solution
This compliant solution passes a const char *
instead of a std::string
, which has well-defined behavior on all implementations.
#include <cstdarg> #include <iostream> extern "C" void f(const char *s, ...) { va_list list; va_start(list, s); std::cout << (s ? s : "") << ", " << va_arg(list, int); va_end(list); }
Risk Assessment
Passing an object of an unsupported type as the second argument to va_start()
can result in undefined behavior that might be exploited to cause data integrity violations.
Rule | Severity | Likelihood | Remediation Cost | Priority | Level |
---|---|---|---|---|---|
EXP58-CPP | Medium | Unlikely | Medium | P4 | L3 |
Automated Detection
Tool | Version | Checker | Description |
---|---|---|---|
Clang | 3.9 | -Wvarargs | Does not catch the violation in the third noncompliant code example (it is conditionally supported by Clang) |
Parasoft C/C++test | 2023.1 | CERT_CPP-EXP58-a | Use macros for variable arguments correctly |
Polyspace Bug Finder | R2024a | CERT C++: EXP58-CPP | Checks for incorrect data types for second argument of va_start (rule fully covered) |
Helix QAC | 2024.3 |
Related Vulnerabilities
Search for vulnerabilities resulting from the violation of this rule on the CERT website.
Related Guidelines
Bibliography
[ISO/IEC 9899:2011] | Subclause 7.16.1.4, "The va_start Macro" |
[ISO/IEC 14882-2014] | Subclause 18.10, "Other Runtime Support" |