Alternative functions that limit the number of bytes copied are often recommended to mitigate buffer overflow vulnerabilities. Examples include

These functions truncate strings that exceed the specified limits. Additionally, some functions, such as strncpy(), do not guarantee that the resulting character sequence is null-terminated. (See STR32-C. Do not pass a non-null-terminated character sequence to a library function that expects a string.)

Unintentional truncation results in a loss of data and in some cases leads to software vulnerabilities.

Noncompliant Code Example

The standard functions strncpy() and strncat() copy a specified number of characters n from a source string to a destination array. In the case of strncpy(), if there is no null character in the first n characters of the source array, the result will not be null-terminated and any remaining characters are truncated.

char *string_data;
char a[16];
/* ... */
strncpy(a, string_data, sizeof(a));

Compliant Solution (Adequate Space)

Either the strcpy() or strncpy() function can be used to copy a string and a null character to a destination buffer, provided there is enough space. The programmer must be careful to ensure that the destination buffer is large enough to hold the string to be copied and the null byte to prevent errors, such as data truncation and buffer overflow.

char *string_data = NULL;
char a[16];

/* ... */

if (string_data == NULL) {
  /* Handle null pointer error */
else if (strlen(string_data) >= sizeof(a)) {
  /* Handle overlong string error */
else {
  strcpy(a, string_data);

This solution requires that string_data is null-terminated; that is, a null byte can be found within the bounds of the referenced character array. Otherwise, strlen() will stray into other objects before finding a null byte.

Compliant Solution (strcpy_s(), C11 Annex K)

The strcpy_s() function defined in C11 Annex K  [ISO/IEC 9899:2011] provides additional safeguards, including accepting the size of the destination buffer as an additional argument. (See STR07-C. Use the bounds-checking interfaces for string manipulation.) Also, strnlen_s() accepts a maximum-length argument for strings that may not be null-terminated.

char *string_data = NULL;
char a[16];

/* ... */

if (string_data == NULL) {
  /* Handle null pointer error */
else if (strnlen_s(string_data, sizeof(a)) >= sizeof(a)) {
  /* Handle overlong string error */
else {
  strcpy_s(a, sizeof(a), string_data);

If a runtime-constraint error is detected by the call to either strnlen_s() or strcpy_s(), the currently registered runtime-constraint handler is invoked. See ERR03-C. Use runtime-constraint handlers when calling the bounds-checking interfaces for more information on using runtime-constraint handlers with C11 Annex K functions.


STR03-C-EX1: The intent of the programmer is to purposely truncate the string.

Risk Assessment

Truncating strings can lead to a loss of data.




Remediation Cost









Automated Detection





MISC.MEM.NTERMNo Space For Null Terminator

Could detect violations in the following manner: all calls to strncpy() and the other functions should be followed by an assignment of a terminating character to null-terminate the string

GCC8.1-Wstringop-truncationDetects string truncation by strncat and strncpy.


LDRA tool suite

115 S, 44 S

Partially implemented

Parasoft C/C++test


Avoid overflow due to reading a not zero terminated string

Polyspace Bug Finder

CERT C: Rec. STR03-C

Checks for invalid use of standard library string routine (rec. partially supported)

Related Vulnerabilities

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

Related Guidelines

SEI CERT C++ Coding StandardVOID STR03-CPP. Do not inadvertently truncate a null-terminated character array
ISO/IEC TR 24772:2013String Termination [CJM]
MITRE CWECWE-170, Improper null termination
CWE-464, Addition of data structure sentinel


[Seacord 2013]Chapter 2, "Strings"