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C99 defines undefined behavior in Section The C Standard, subclause 3.4.3 [ISO/IEC 9899:2011], defines undefined behavior as

behavior, upon use of a nonportable or erroneous program construct or of erroneous data, for which this International Standard imposes no requirements.

C99 Section Subclause 4 explains how the standard identifies undefined behaviors:behavior (see also undefined behavior 1 of Annex J).

If a "shall" or "shall not" requirement that appears outside of a constraint is violated, the behavior is undefined. Undefined behavior is otherwise indicated in this International Standard by the words "undefined behavior" or by the omission of any explicit definition of behavior. There is no difference in emphasis among these three; they all describe "behavior that is undefined".

C99 Annex J, subclause J.2, "Undefined behavior," contains a list of explicit undefined behaviors in C99enumerates the circumstances under which the behavior of a program is undefined. This list is duplicated on the CC. Undefined Behavior page.

Behavior can be classified as undefined by the C standards committee for the following reasons:

  • to To give the implementor license not to catch certain program errors that are difficult to diagnose
  • To avoid defining obscure corner cases that would favor one implementation strategy over another
  • To to identify areas of possible conforming language extension: the implementor may augment the language by providing a definition of the officially undefined behavior

Conforming implementations can deal with undefined behavior in a variety of fashions, such as ignoring the situation completely, with unpredictable results; translating or executing the program in a documented manner characteristic of the environment (with or without the issuance of a diagnostic message); or terminating a translation or execution (with the issuance of a diagnostic message). Because compilers are not obligated to generate code for undefined behavior, these behaviors are candidates for optimization. By assuming that undefined behaviors will not occur, compilers can generate code with better performance characteristics.Unfortunately,

Increasingly, compiler writers are taking advantage of undefined behaviors do occur, particularly in the presence of an attacker. Optimizations make it difficult to determine how these systems will behave in the presence of undefined behaviors. This is particularly true when visually inspecting source code that relies on undefined behaviors; a code reviewer cannot be certain if the code will be compiled or if it will be optimized out. Furthermore, just because a compiler currently generates object code for an undefined behavior does not mean that future versions of the compiler are obligated to do the same; the behavior may be viewed as an opportunity for further optimization. Compilers are also not required to issue diagnostics for undefined behavior, so there is frequently no easy way to identify undefined behavior in codein the C programming languages to improve optimizations. These optimizations frequently interfere with the ability of developers to perform cause-effect analysis on their source code—that is, to analyze the dependence of downstream results on prior results. Consequently, these optimizations are eliminating causality in software and are increasing the probability of software faults, defects, and vulnerabilities.

All of this puts the onus on the programmer to write strictly conforming codedevelop code that is free from undefined behaviors, with or without the help of the compiler. Because performance is a primary emphasis of the C language, this situation is likely to get worse before it gets better.

Noncompliant Code Example

An example of undefined behavior in C99 C is the behavior on signed integer overflow (see also INT32-C. Ensure that operations on signed integers do not result in overflow). This noncompliant code example depends on this behavior to catch the overflow.:

Code Block
bgColor#FFCCCC
langc
#include <assert.h>
#include <assert<limits.h>
#include <stdio.h>
 
int foo(int a) {
  assert(a + 100 > a);
  printf("%d %d\n", a + 100, a);
  return a;
}

int main(void) {
  foo(100);
  foo(INT_MAX);
  return 0;
}

This code tests checks for signed integer overflow by testing to see if whether a + 100 > a. This test cannot evaluate to false unless an integer overflow occurs. However, because a conforming implementation is not required to generate code for undefined behavior, and signed integer overflow is undefined behavior, this code may be compiled out. For example, GCC version 4.1.1 optimizes out the assertion for all optimization levels, and GCC 4.2.3 optimizes out the assertion for programs compiled with -O2-level optimization and higher.

On some platforms, the integer overflow will cause causes the program to terminate (before it has an opportunity to test).

...

This compliant solution does not depend on undefined behavior because it generates code to test for overflow in the assertion.:

Code Block
bgColor#ccccff
langc
#include <assert.h>
#include <assert<limits.h>
#include <stdio.h>

int foo(int a) {
  assert(a < (INT_MAX - 100));
  printf("%d %d\n", a + 100, a);
  return a;
}

int main(void) {
  foo(100);
  foo(INT_MAX);
  return 0;
}

Risk Assessment

While Although it is rare that the entire application can be strictly conforming, the goal should be that almost all the code is allowed for a strictly conforming program (which among other things means that it avoids undefined behavior), with the implementation-dependent parts confined to modules that the programmer knows he needs to knows are needed to adapt to the platform when it changes.

Recommendation

Severity

Likelihood

Remediation Cost

Priority

Level

MSC15-C

high

High

likely

Likely

medium

Medium

P18

L1

Automated Detection

Tool

Version

Checker

Description

Astrée
Include Page
Astrée_V
Astrée_V

Supported: Astrée reports undefined behavior.
Helix QAC

Include Page
Helix QAC_V
Helix QAC_V

C0160, C0161, C0162, C0163, C0164, C0165, C0166, C0167, C0168, C0169, C0170, C0171, C0172, C0173, C0174, C0175, C0176, C0177, C0178, C0179, C0184, C0185, C0186, C0190, C0191, C0192, C0193, C0194, C0195, C0196, C0197, C0198, C0199, C0200, C0201, C0203, C0204, C0206, C0207, C0208, C0235, C0275, C0301, C0302, C0304, C0307, C0309, C0323, C0327, C0337, C0400, C0401, C0402, C0403, C0475, C0543, C0544, C0545, C0602, C0603, C0623, C0625, C0626, C0630, C0632, C0636, C0654, C0658, C0661, C0667, C0668, C0672, C0676, C0678, C0680, C0706, C0745, C0777, C0779, C0813, C0814, C0821, C0836, C0837, C0848, C0853, C0854, C0864, C0865, C0867, C0872, C0874, C0885, C0887, C0888, C0914, C0915, C0942, C1509, C1510, C3113, C3114, C3239, C3311, C3312, C3319, C3437, C3438


LDRA tool suite
Include Page
LDRA_V
LDRA_V

48 D, 63 D, 84 D, 113 D, 5 Q, 64 S, 65 S, 100 S, 109 S, 156 S, 296 S, 324 S, 335 S, 336 S, 339 S, 412 S, 427 S, 465 S, 482 S, 497 S, 545 S, 587 S, 608 S, 642 S, 62 X, 63 X

Partially implemented
Parasoft C/C++test
Include Page
Parasoft_V
Parasoft_V
CERT_C-MSC15-a

Evaluation of constant unsigned integer expressions should not lead to wrap-around

Polyspace Bug Finder

Include Page
Polyspace Bug Finder_V
Polyspace Bug Finder_V

CERT C: Rec. MSC15-C


Checks for undefined behavior (rec. partially covered)

PVS-Studio

Include Page
PVS-Studio_V
PVS-Studio_V

V772

Related Vulnerabilities

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

References

...

Related Guidelines

SEI CERT C++ Coding StandardVOID MSC15-CPP. Do not depend on undefined behavior
ISO/IEC TR 24772Unspecified Behaviour [BQF]
Undefined Behaviour [EWF]
Implementation-Defined Behaviour [FAB]

Bibliography

...

...

2011]Subclause 3.4.3,

...

"Undefined Behavior"
Subclause 4,

...

"Conformance

...

"
Subclause J.2,

...

"Undefined Behavior"
[Seacord 2013]Chapter 5, "Integer Security"


...

Image Added Image Added behavior" \[[ISO/IEC PDTR 24772|AA. C References#ISO/IEC PDTR 24772]\] "BQF Unspecified Behaviour" \[[ISO/IEC PDTR 24772|AA. C References#ISO/IEC PDTR 24772]\] "EWF Undefined Behaviour" \[[ISO/IEC PDTR 24772|AA. C References#ISO/IEC PDTR 24772]\] "FAB Implementation-defined Behaviour" \[[Seacord 05|AA. C References#Seacord 05]\] Chapter 5, "Integers"Image Removed      13. Miscellaneous (MSC)       Image Modified