Most functions defined by the C11 Annex K Bounds-checking interfaces include, as part of their specification, a list of runtime constraints, violations of which can be consistently handled at runtime. Library implementations must verify that the runtime constraints for a function are not violated by the program. If a runtime constraint is violated, the runtime constraint handler currently registered with set_constraint_handler_s() is called.
Section 6.6.1 [ISO/IEC TR 24731-1:2007] states:
When the handler is called, it is passed the following arguments in the following order:
- A pointer to a character string describing the runtime constraint violation.
- A null pointer or a pointer to an implementation-defined object.
- If the function calling the handler has a return type declared as
errno_t, the return value of the function is passed. Otherwise, a positive value of typeerrno_tis passed.The implementation has a default constraint handler that is used if no calls to the
set_constraint_handler_s()function have been made or the handler argument toset_constraint_handler_s()is a null pointer. The behavior of the default handler is implementation-defined, and it may cause the program to exit or abort.
And Section 6.1.4 [ISO/IEC TR 24731-1:2007] states:
The runtime constraint handler might not return. If the handler does return, the library function whose runtime constraint was violated shall return some indication of failure as given by the returns section in the function's specification.
These runtime constraint handlers mitigate some of the potential insecurity caused by in-band error indicators. (See ERR02-C. Avoid in-band error indicators.)
Noncompliant Code Example (TR24731-1)
In this noncompliant code example, the strcpy_s() function is called, but no runtime-constraint handler has been explicitly registered. As a result, the implementation-defined default handler is called on a runtime error.
errno_t function(char *dst1, size_t size){
char src1[100] = "hello";
if (strcpy_s(dst1, size, src1) != 0) {
return -1;
}
/* ... */
return 0;
}
The result is inconsistent behavior across implementations and possible termination of the program instead of a graceful exit. The implementation-defined default handler performs a default action consistent with a particular implementation. However, this may not be the desired action, and because the behavior is implementation-defined, it is not guaranteed to be the same on all implementations.
It is therefore prudent to explicitly install a runtime constraint handler to ensure consistent behavior across implementations.
Compliant Code Example (TR24731-1)
This compliant solution explicitly installs a runtime constraint handler by invoking the set_constraint_handler_s() function. It would typically be performed during system initialization and before any functions that used the mechanism were invoked.
constraint_handler_t handle_errors(void) {
/* Handle runtime constraint error */
}
/*...*/
set_constraint_handler_s(handle_errors);
/*...*/
/* Returns zero on success */
errno_t function(char *dst1, size_t size){
char src1[100] = "hello";
if (strcpy_s(dst1, size, src1) != 0) {
return -1;
}
/* ... */
return 0;
}
Compliant Code Example (Visual Studio 2008/.NET Framework 3.5)
Although the ISO/IEC TR 24731-1 functions were created by Microsoft, currently available versions of Microsoft Visual Studio do not support the same interface defined by the technical report for installing runtime constraint handlers. Visual Studio calls these functions "invalid parameter handlers," and they are installed by calling the _set_invalid_parameter_handler() function. The signature of the handler is also significantly different.
_invalid_parameter_handler handle_errors(
const wchar_t* expression,
const wchar_t* function,
const wchar_t* file,
unsigned int line,
uintptr_t pReserved
) {
/* Handle invalid parameter */
}
/*...*/
_set_invalid_parameter_handler(handle_errors)
/*...*/
errno_t function(char *dst1, size_t size) {
char src1[100] = "hello";
if (strcpy_s(dst1, size, src1) != 0) {
return -1;
}
/* ... */
return 0;
}
Risk Assessment
The TR24731-1 standard indicates that if no constraint handler is set, a default one executes when errors arise. The default handler is implementation-defined and "may cause the program to exit or abort." It is important to understand the behavior of the default handler for all implementations being used and replace it if the behavior is inappropriate for the application.
Recommendation | Severity | Likelihood | Remediation Cost | Priority | Level |
|---|---|---|---|---|---|
ERR03-C | low | unlikely | medium | P2 | L3 |
Related Vulnerabilities
Search for vulnerabilities resulting from the violation of this rule on the CERT website.
Related Guidelines
CERT C++ Secure Coding Standard: ERR03-CPP. Use runtime-constraint handlers when calling functions defined by TR24731-1
ISO/IEC TR 24731-1:2007 Section 6.1.4, "Runtime-constraint violations", and Section 6.6.1, "Runtime-constraint handling"
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