As noted in undefined behavior 179 of Annex J of the C standard [ISO/IEC 9899:2011], the behavior of a program is undefined when
the pointer argument to the
free
orrealloc
function does not match a pointer earlier returned by a memory management function, or the space has been deallocated by a call tofree
orrealloc
.
Freeing memory that is not allocated dynamically can lead to serious errors similar to those discussed in MEM31-C. Free dynamically allocated memory exactly once. The specific consequences of this error depend on the implementation, but they range from nothing to abnormal program termination. Regardless of the implementation, avoid calling free()
on anything other than a pointer returned by a dynamic-memory allocation function, such as malloc()
, calloc()
, realloc()
, or aligned_alloc
.
A similar situation arises when realloc()
is supplied a pointer to nondynamically allocated memory. The realloc()
function is used to resize a block of dynamic memory. If realloc()
is supplied a pointer to memory not allocated by a memory allocation function, such as malloc()
, the program may terminate abnormally.
Noncompliant Code Example
This noncompliant code example sets str
to reference either dynamically allocated memory or a statically allocated string literal depending on the value of argc
. In either case, str
is passed as an argument to free()
. If anything other than dynamically allocated memory is referenced by str
, the call to free(str)
is erroneous.
enum { MAX_ALLOCATION = 1000 }; int main(int argc, const char *argv[]) { char *str = NULL; size_t len; if (argc == 2) { len = strlen(argv[1])+1; if (len > MAX_ALLOCATION) { /* Handle error */ } str = (char *)malloc(len); if (str == NULL) { /* Handle allocation error */ } strcpy(str, argv[1]); } else { str = "usage: $>a.exe [string]"; printf("%s\n", str); } /* ... */ free(str); return 0; }
Compliant Solution
This compliant solution eliminates the possibility of str
, referencing nondynamic memory when it is supplied to free()
.
enum { MAX_ALLOCATION = 1000 }; int main(int argc, const char *argv[]) { char *str = NULL; size_t len; if (argc == 2) { len = strlen(argv[1])+1; if (len > MAX_ALLOCATION) { /* Handle error */ } str = (char *)malloc(len); if (str == NULL) { /* Handle allocation error */ } strcpy(str, argv[1]); } else { printf("%s\n", "usage: $>a.exe [string]"); return -1; } /* ... */ free(str); return 0; }
Risk Assessment
Freeing or reallocating memory that was not dynamically allocated can lead to arbitrary code execution if that memory is reused by malloc()
.
Rule | Severity | Likelihood | Remediation Cost | Priority | Level |
---|---|---|---|---|---|
MEM34-C | high | likely | medium | P18 | L1 |
Automated Detection
Tool | Version | Checker | Description |
---|---|---|---|
9.7.1 | 483 S | Fully implemented. | |
2017.07 | BAD_FREE | Identifies calls to | |
2024.3 | FNH.MIGHT | ||
Compass/ROSE | Can detect some violations of this rule. |
Related Vulnerabilities
Search for vulnerabilities resulting from the violation of this rule on the CERT website.
Related Guidelines
CERT C++ Secure Coding Standard: MEM34-CPP. Only free memory allocated dynamically
ISO/IEC 9899:2011 Section 7.22.3, "Memory management functions"
ISO/IEC TR 17961 (Draft) Reallocating or freeing memory that was not dynamically allocatied [xfree]
MITRE CWE: CWE-590, "Free of invalid pointer not on the heap"
Bibliography
[Seacord 2005] Chapter 4, "Dynamic Memory Management"