Few programmers consider the issues around formatted I/O and type definitions. A programmer-defined integer type might be any type supported by the implementation, even a type larger than unsigned long long
. For example, given an implementation that supports 128-bit unsigned integers and provides a uint_fast128_t
type, a programmer may define the following type:
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typedef uint_fast128_t mytypedef_t;
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Furthermore, the definition of programmer-defined types may change. This creates , which creates a problem using when these types are used with formatted output functions, such as printf()
, and formatted input functions, such as scanf()
. (see FIO00See FIO47-C. Take care when creating Use valid format strings.).
The C99 C intmax_t
and uintmax_t
types are capable of representing any types can represent any value representable by any other integer types of the same signedness. (see See INT00-C. Understand the data model used by your implementation(s).) . This allows capability allows conversion between programmer-defined integer types (of the same signedness) and intmax_t
and uintmax_t
. For example:
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mytypedef_t x; uintmax_t temp; /* ... */ temp = x; /* alwaysAlways secure if mytypedef_t is unsigned*/ /* ... changeChange the value of temp ... */ if (temp <= MYTYPEDEF_MAX) { x = temp; } |
Formatted I/O functions can be used to input and output greatest-width integer typed values. The j
length modifier in a format string indicates that the following d
, i
, o
, u
, x
, X
, or n
conversion specifier will apply to an argument with type intmax_t
or uintmax_t
. C99 C also specifies the z
length modifier for use with arguments of type size_t
and the t
length modifier for arguments of type ptrdiff_t
.
In addition to programmer-defined types, there is no requirement that an implementation provides provide format-length modifiers for implementation-defined integer types. For example, a machine with an implementation-defined 48-bit integer type may not provide format-length modifiers for the type. Such a machine would still have to have machine still must have a 64-bit long long
, with intmax_t
being at least that large.
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This noncompliant code example prints the value of x
as an unsigned long long
value , even though the value is of a programmer-defined integer type.:
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#include <stdio.h>
mytypedef_t x;
/* ... */
printf("%llu", (unsigned long long) x);
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...
Compliant Solution (printf()
)
The C99 C intmax_t
and uintmax_t
can be safely used to perform formatted I/O with programmer-defined integer types . This is accomplished by converting signed programmer-defined integer types to intmax_t
and unsigned programmer-defined integer types to uintmax_t
, then outputting these values using the j
length modifier. Similarly, programmer-defined integer types can be input to variables of intmax_t
or uintmax_t
(whichever matches the signedness of the programmer-defined integer type) and then converted to programmer-defined integer types using appropriate range checks.
This compliant solution guarantees that the correct value of x
is printed, regardless of its length, provided that mytypedef_t
is an unsigned type:
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#include <stdio.h> #include <inttypes.h> mytypedef_t x; /* ... */ printf("%ju", (uintmax_t) x); |
Compliant Solution (Microsoft printf()
)
Visual Studio 2012 and earlier versions do not support the standard j
length modifier and do not have a nonstandard analog. Consequently, the programmer must hard code the knowledge that intmax_t
is int64_t
and uintmax_t
is
for Microsoft Visual Studio versions.uint64_t
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#include <stdio.h> #include <inttypes.h> mytypedef_t x; /* ... */ #ifdef _MSC_VER printf("%llu", (uintmax_t) x); #else printf("%ju", (uintmax_t) x); #endif |
A feature request has been submitted to Microsoft to add support for the j
length modifier to a future release of Microsoft Visual Studio.
Noncompliant Code Example (scanf()
)
The following This noncompliant code example reads an unsigned long long
value from standard input and stores the result in x
, which is of a programmer-defined integer type.:
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#include <stdio.h> mytypedef_t x; /* ... */ if (scanf("%llu", &x) != 1) { /* handleHandle error */ } |
This noncompliant code example can result in a buffer overflow , if the size of mytypedef_t
is smaller than unsigned long long
, or it might result in an incorrect value if the size of mytypedef_t
is larger than unsigned long long
. Moreover, scanf()
lacks the error checking capabilities of alternative conversion routines, such as strtol()
. For more information, see INT06-C. Use strtol() or a related function to convert a string token to an integer.
Compliant Solution (
...
strtoumax()
)
This compliant solution guarantees that a correct value in the range of mytypedef_t
is read, or an error condition is detected, assuming the value of MYTYPEDEF_MAX
is correct as the largest value representable by mytypedef_t
: The strtoumax()
function is used instead of scanf()
as it provides enhanced error checking functionality. The fgets()
function is used to read input from stdin
.
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#include <stdio.h> #include <inttypes.h> #include <errno.h> mytypedef_t x; uintmax_t temp; /* ... */ if (fgets(buff, sizeof(buff), stdin) == NULL) { if (scanfputs("%ju", &temp) != 1) { EOF or read error\n") == EOF) { /* Handle error */ } } else { /* Check for errors in the conversion */ errno = 0; temp = strtoumax(buff, &end_ptr, 10); if (ERANGE == errno) { if (puts("number out of range\n") == EOF) { /* Handle error */ } } else if (end_ptr == buff) { if (puts("not valid numeric input\n") == EOF) { /* Handle error */ } } else if ('\n' != *end_ptr && '\0' != *end_ptr) { if (puts("extra characters on input line\n") == EOF) { /* handleHandle error */ } } /* No conversion errors, attempt to store the converted value into x */ if (temp > MYTYPEDEF_MAX) { /* handleHandle error */ } else { x = temp; } } |
Risk Assessment
Failure to use an appropriate conversion specifier when inputting or outputting programmer-defined integer types can result in buffer overflow and lost or misinterpreted data.
Recommendation | Severity | Likelihood | Remediation Cost | Priority | Level |
---|---|---|---|---|---|
INT15-C |
High |
Unlikely |
Medium | P6 | L2 |
Automated Detection
Tool | Version | Checker | Description | ||||||
---|---|---|---|---|---|---|---|---|---|
Axivion Bauhaus Suite |
| CertC-INT15 | |||||||
Compass/ROSE |
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Can catch violations of this rule by scanning the |
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qualifier (or any qualifier besides |
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and that |
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is not one of the built-in types ( |
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LDRA tool suite |
| 586 S | Enhanced Enforcement | ||||||
Parasoft C/C++test |
| CERT_C-INT15-a | Use intmax_t or uintmax_t for formatted IO on programmer-defined integer types |
Related Vulnerabilities
Search for vulnerabilities resulting from the violation of this rule on the CERT website.
Other Languages
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Related Guidelines
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Wiki Markup |
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\[[ISO/IEC 9899-1999|AA. References#ISO/IEC 9899-1999]] Section 7.18.1.5, "Greatest-width integer types," and Section 7.19.6, "Formatted input/output functions"
\[[MITRE 07|AA. References#MITRE 07]\] [CWE ID 681|http://cwe.mitre.org/data/definitions/681.html], "Incorrect Conversion between Numeric Types" |
CWE-681, Incorrect conversion between numeric types |
Bibliography
[Saks 2007c] | Standard C's Pointer Difference Type |
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