TR24731-1 provides a consistent mechanism to handle constraints violations that are discerned at runtime. Most functions defined by TR24731-1 include the C Standard, Annex K Bounds-checking interfaces, include, as part of their specification, a list of runtime -constraintsconstraints, 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 runtime-with set_constraint_handler_s()
is called.
Annex K, subclause K.3.6.1.1, of the C Standard [ISO/IEC 9899:2011] 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 type
...
errno_t
is passed.
A runtime-constraint handler is registered by calling the set_constraint_handler_s()
function.
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.
If the handler argument to set_constraint_handler_s()
is a null pointer, the implementation default handler becomes the current constraint handler.
Section 6And subclause K.3.1.4 states:
...
and
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-AC. Avoid in-band error indicators.)
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Noncompliant Code Example (C11 Annex K)
In this non-compliant example no set_constraint_handler_noncompliant code example, the strcpy_s()
has been called so the implementation function is called, but no runtime-constraint handler has been explicitly registered. As a result, the implementation-defined default handler will be is called on a run-time error. This will result in inconsistent behavior across implementations and possible termination of the program instead of a graceful exitruntime error.
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errno_t function(char * dst1dst1, size_t size){ char src1[100] = "hello"; if (strcpy_s( dst1, sizeof(dst1)size, src1) != 0) { return -1; } /* ... */ return 0; } |
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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 Solution (C11 Annex K)
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.
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constraint_handler_t handle_errors(void) { /* defineHandle what to do when error occursruntime-constraint error */ } /* ... */ set_constraint_handler_s(handle_errors); /* ... */ /* Returns zero on success */ errno_t function(char * dst1dst1, size_t size){ char src1[100] = "hello"; if (strcpy_s( dst1, sizeof(dst1)size, src1) != 0) { return -1; } /* ... */ return 0; } |
Compliant
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Solution (Visual Studio 2008 and later)
Although the C11 Annex K functions were created by Microsoft, Microsoft Visual Studio does 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 [MSDN].
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_invalid_parameter_handler handle_errors( const wchar_t* expression, const wchar_t* function, const wchar_t* file, unsigned int line, uintptr_t pReserved ) { /*define whatHandle toinvalid doparameter when error occurs*/ } /* ... */ _set_invalid_parameter_handler(handle_errors) /* ... */ errno_t function(char *dst1, size_t size) { char src1[100] = "hello"; if (strcpy_s( dst1, sizeof(dst1)size, src1) != 0) { return -1; } /* ... */ return 0; } |
Risk
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Assessment
C11 Annex K 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". Therefore using constraint handlers prevents a program from immediately crashing [ISO/IEC 9899:2011]. 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 |
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ERR03-A C | low Low | unlikely Unlikely | low Medium | P3 P2 | L3 |
Related Vulnerabilities
Search for vulnerabilities resulting from the violation of this rule on the CERT website.
References
Wiki Markup |
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\[[ISO/IEC TR 24731-1-2007|AA. C References#ISO/IEC TR 24731-1-2007]\]
\[[MSDN|AA. C References#MSDN]\] "[Parameter Validation|http://msdn.microsoft.com/en-us/library/ksazx244.aspx]" |
Related Guidelines
SEI CERT C++ Coding Standard | VOID ERR03-CPP. Use runtime-constraint handlers when calling functions defined by TR24731-1 |
Bibliography
[ISO/IEC 9899:2011] | Subclause K.3.1.4, "Runtime-Constraint Violations" |
[MSDN] | "Parameter Validation" |
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ERR02-A. Avoid in-band error indicators 12. Error Handling (ERR) ERR04-A. Choose an appropriate termination strategy