The C Standard, 6.2.5, paragraph 9 11 [ISO/IEC 9899:20112024], states
A computation involving unsigned operands can never produce an overflow, because a result that cannot be represented by the resulting unsigned integer type is reduced modulo the number that is one greater than the largest value that can be represented by the resulting typearithmetic for the unsigned type is performed modulo 2^N .
This behavior is more informally called unsigned integer wrapping. Unsigned integer operations can wrap if the resulting value cannot be represented by the underlying representation of the integer. The following table indicates which operators can result in wrapping:
Operator | Wrap | Operator | Wrap | Operator | Wrap | Operator | Wrap |
---|---|---|---|---|---|---|---|
Yes | Yes | Yes |
| No | |||
Yes | Yes |
| No |
| No | ||
Yes |
| No |
| No |
| No | |
| No |
| No |
| No |
| No |
| No | Yes |
| No |
| No | |
| Yes |
| No |
| No |
| No |
| Yes |
| No |
| No |
| No |
| No |
| No |
| No |
| No |
Yes |
| No |
| Yes |
| No |
The following sections examine specific operations that are susceptible to unsigned integer wrap. When operating on integer types with less precision than int
, integer promotions are applied. The usual arithmetic conversions may also be applied to (implicitly) convert operands to equivalent types before arithmetic operations are performed. Programmers should understand integer conversion rules before trying to implement secure arithmetic operations. (See INT02-C. Understand integer conversion rules.)
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Integer wrap can lead to buffer overflows and the execution of arbitrary code by an attacker.
Rule | Severity | Likelihood | Remediation Cost | Priority | Level |
---|---|---|---|---|---|
INT30-C | High | Likely | High | P9 | L2 |
Automated Detection
Tool | Version | Checker | Description |
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Astrée |
|
|
|
integer-overflow | Fully checked | ||||||||
Axivion Bauhaus Suite |
| CertC-INT30 | Implemented | ||||||
CodeSonar |
| ALLOC.SIZE.ADDOFLOW | Addition overflow of allocation size | ||||||
Compass/ROSE |
Can detect violations of this rule by ensuring that operations are checked for overflow before being performed (Be mindful of exception INT30-EX2 because it excuses many operations from requiring validation, including all the operations that would validate a potentially dangerous operation. For instance, adding two | |||||||||
Coverity |
| INTEGER_OVERFLOW | Implemented |
Cppcheck Premium |
|
|
|
CWARN.NOEFFECT.OUTOFRANGE
2910 (C)
2911 (D)
2912 (A)
2913 (S)
Related Vulnerabilities
CVE-2009-1385 results from a violation of this rule. The value performs an unchecked subtraction on the length
of a buffer and then adds those many bytes of data to another buffer [xorl 2009]. This can cause a buffer overflow, which allows an attacker to execute arbitrary code.
A Linux Kernel vmsplice exploit, described by Rafal Wojtczuk [Wojtczuk 2008], documents a vulnerability and exploit arising from a buffer overflow (caused by unsigned integer wrapping).
Don Bailey [Bailey 2014] describes an unsigned integer wrap vulnerability in the LZO compression algorithm, which can be exploited in some implementations.
CVE-2014-4377 describes a vulnerability in iOS 7.1 resulting from a multiplication operation that wraps, producing an insufficiently small value to pass to a memory allocation routine, which is subsequently overflowed.
Search for vulnerabilities resulting from the violation of this rule on the CERT website.
Related Guidelines
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INT02-C. Understand integer conversion rules
ARR30-C. Do not form or use out-of-bounds pointers or array subscripts
ARR36-C. Do not subtract or compare two pointers that do not refer to the same array
ARR37-C. Do not add or subtract an integer to a pointer to a non-array object
CON08-C. Do not assume that a group of calls to independently atomic methods is atomic
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premium-cert-int30-c | Partially implemented | ||||||||
Helix QAC |
| C2910, C3383, C3384, C3385, C3386 C++2910 DF2911, DF2912, DF2913, | |||||||
Klocwork |
| NUM.OVERFLOW | |||||||
LDRA tool suite |
| 493 S, 494 S | Partially implemented | ||||||
Parasoft C/C++test |
| CERT_C-INT30-a | Avoid wraparounds when performing arithmetic integer operations | ||||||
Polyspace Bug Finder |
| CERT C: Rule INT30-C | Checks for:
Rule partially covered. | ||||||
PVS-Studio |
| V658, V1012, V1028, V5005, V5011 | |||||||
TrustInSoft Analyzer |
| unsigned overflow | Exhaustively verified. |
Related Vulnerabilities
CVE-2009-1385 results from a violation of this rule. The value performs an unchecked subtraction on the length
of a buffer and then adds those many bytes of data to another buffer [xorl 2009]. This can cause a buffer overflow, which allows an attacker to execute arbitrary code.
A Linux Kernel vmsplice exploit, described by Rafal Wojtczuk [Wojtczuk 2008], documents a vulnerability and exploit arising from a buffer overflow (caused by unsigned integer wrapping).
Don Bailey [Bailey 2014] describes an unsigned integer wrap vulnerability in the LZO compression algorithm, which can be exploited in some implementations.
CVE-2014-4377 describes a vulnerability in iOS 7.1 resulting from a multiplication operation that wraps, producing an insufficiently small value to pass to a memory allocation routine, which is subsequently overflowed.
Search for vulnerabilities resulting from the violation of this rule on the CERT website.
Related Guidelines
Key here (explains table format and definitions)
Taxonomy | Taxonomy item | Relationship |
---|---|---|
CERT C | INT02-C. Understand integer conversion rules | Prior to 2018-01-12: CERT: Unspecified Relationship |
CERT C | ARR30-C. Do not form or use out-of-bounds pointers or array subscripts | Prior to 2018-01-12: CERT: Unspecified Relationship |
CERT C | ARR36-C. Do not subtract or compare two pointers that do not refer to the same array | Prior to 2018-01-12: CERT: Unspecified Relationship |
CERT C | ARR37-C. Do not add or subtract an integer to a pointer to a non-array object | Prior to 2018-01-12: CERT: Unspecified Relationship |
CERT C | CON08-C. Do not assume that a group of calls to independently atomic methods is atomic | Prior to 2018-01-12: CERT: Unspecified Relationship |
ISO/IEC TR 24772:2013 | Arithmetic Wrap-Around Error [FIF] | Prior to 2018-01-12: CERT: Unspecified Relationship |
CWE 2.11 | CWE-190, Integer Overflow or Wraparound | 2016-12-02: CERT: Rule subset of CWE |
CWE 2.11 | CWE-131 | 2017-05-16: CERT: Partial overlap |
CWE 2.11 | CWE-191 | 2017-05-18: CERT: Partial overlap |
CWE 2.11 | CWE-680 | 2017-05-18: CERT: Partial overlap |
CERT-CWE Mapping Notes
Key here for mapping notes
CWE-131 and INT30-C
- Intersection( INT30-C, MEM35-C) = Ø
- Intersection( CWE-131, INT30-C) =
- Calculating a buffer size such that the calculation wraps. This can happen, for example, when using malloc() or operator new[] to allocate an array, multiplying the array item size with the array dimension. An untrusted dimension could cause wrapping, resulting in a too-small buffer being allocated, and subsequently overflowed when the array is initialized.
- CWE-131 – INT30-C =
- Incorrect calculation of a buffer size that does not involve wrapping. This includes off-by-one errors, for example.
INT30-C – CWE-131 =
- Integer wrapping where the result is not used to allocate memory.
CWE-680 and INT30-C
Intersection( CWE-680, INT30-C) =
- Unsigned integer overflows that lead to buffer overflows
CWE-680 - INT30-C =
- Signed integer overflows that lead to buffer overflows
INT30-C – CWE-680 =
- Unsigned integer overflows that do not lead to buffer overflows
CWE-191 and INT30-C
Union( CWE-190, CWE-191) = Union( INT30-C, INT32-C) Intersection( INT30-C, INT32-C) == Ø
Intersection(CWE-191, INT30-C) =
- Underflow of unsigned integer operation
CWE-191 – INT30-C =
- Underflow of signed integer operation
INT30-C – CWE-191 =
- Overflow of unsigned integer operation
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Bibliography
[Bailey 2014] | Raising Lazarus - The 20 Year Old Bug that Went to Mars |
[Dowd 2006] | Chapter 6, "C Language Issues" ("Arithmetic Boundary Conditions," pp. 211–223) |
[ISO/IEC 9899: |
2024] | Subclause 6.2.5, "Types" |
[Seacord 2013b] | Chapter 5, "Integer Security" |
[Viega 2005] | Section 5.2.7, "Integer Overflow" |
[VU#551436] |
[Warren 2002] | Chapter 2, "Basics" |
[Wojtczuk 2008] |
[xorl 2009] | "CVE-2009-1385: Linux Kernel E1000 Integer Underflow" |
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