When developing new code, declare functions that return errno
with a return type of errno_t
. Many existing functions that return errno
are declared as returning a value of type int
. It is semantically unclear by inspecting the function declaration or prototype if these functions return an error status or a value or, worse, some combination of the two. (See ERR02-C. Avoid in-band error indicators.)
C11 Annex K introduced the new type errno_t
that is defined to be type int
in errno.h
and elsewhere. Many of the functions defined in C11 Annex K return values of this type [ISO/IEC 9899:2011]. The errno_t
type should be used as the type of an object that may contain only values that might be found in errno
. For example, a function that returns the value of errno
should be declared as having the return type errno_t
.
This recommendation depends on C11 Annex K being implemented. The following code can be added to remove this dependency:
#ifndef __STDC_LIB_EXT1__ typedef int errno_t; #endif
Noncompliant Code Example
This noncompliant code example shows a function called opener()
that returns errno
error codes. However, the function is declared as returning an int
. Consequently, the meaning of the return value is not readily apparent.
#include <errno.h> #include <stdio.h> enum { NO_FILE_POS_VALUES = 3 }; int opener( FILE *file, size_t *width, size_t *height, size_t *data_offset ) { size_t file_w; size_t file_h; size_t file_o; fpos_t offset; if (file == NULL) { return EINVAL; } errno = 0; if (fgetpos(file, &offset) != 0) { return errno; } if (fscanf(file, "%zu %zu %zu", &file_w, &file_h, &file_o) != NO_FILE_POS_VALUES) { return -1; } errno = 0; if (fsetpos(file, &offset) != 0) { return errno; } if (width != NULL) { *width = file_w; } if (height != NULL) { *height = file_h; } if (data_offset != NULL) { *data_offset = file_o; } return 0; }
This noncompliant code example nevertheless complies with ERR30-C. Set errno to zero before calling a library function known to set errno, and check errno only after the function returns a value indicating failure.
Compliant Solution (POSIX)
In this compliant solution, the opener()
function returns a value of type errno_t
, providing a clear indication that this function returns an error code:
#define __STDC_WANT_LIB_EXT1__ 1 #include <errno.h> #include <stdio.h> #include <stdlib.h> enum { NO_FILE_POS_VALUES = 3 }; errno_t opener( FILE *file, size_t *width, size_t *height, size_t *data_offset ) { size_t file_w; size_t file_h; size_t file_o; fpos_t offset; if (NULL == file) { return EINVAL; } errno = 0; if (fgetpos(file, &offset) != 0 ) { return errno; } if (fscanf(file, "%zu %zu %zu", &file_w, &file_h, &file_o) != NO_FILE_POS_VALUES) { return EIO; } errno = 0; if (fsetpos(file, &offset) != 0 ) { return errno; } if (width != NULL) { *width = file_w; } if (height != NULL) { *height = file_h; } if (data_offset != NULL) { *data_offset = file_o; } return 0; }
This compliant solution is categorized as a POSIX solution because it returns EINVAL and
, which are defined by POSIX but not by the C Standard.EIO
Risk Assessment
Failing to test for error conditions can lead to vulnerabilities of varying severity. Declaring functions that return an errno
with a return type of errno_t
will not eliminate this problem but may reduce errors caused by programmers' misunderstanding the purpose of a return value.
Recommendation | Severity | Likelihood | Remediation Cost | Priority | Level |
---|---|---|---|---|---|
DCL09-C | low | unlikely | low | P3 | L3 |
Related Vulnerabilities
Search for vulnerabilities resulting from the violation of this rule on the CERT website.
Related Guidelines
CERT C++ Secure Coding Standard | DCL09-CPP. Declare functions that return errno with a return type of errno_t |
ISO/IEC 9899:2011 | K.3.2 "Errors <errno.h>" |
ISO/IEC TR 24772:2013 | Ignored Error Status and Unhandled Exceptions [OYB] |
MISRA C:2012 | Directive 1.1 (required) |
Bibliography