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Many library functions accept a string or wide string argument with the constraint that the string they receive is properly null-terminated. Passing a character sequence or wide character sequence that is not null-terminated to such a function can result in accessing memory that is outside the bounds of the object. Do not pass a character sequence or wide character sequence that is not null-terminated to a library function that expects a string or wide string argument. 

Noncompliant Code Example

This code example is noncompliant because the character sequence c_str will not be null-terminated when passed as an argument to printf() (see STR11-C. Do not specify the bound of a character array initialized with a string literal on how to properly initialize character arrays).

#include <stdio.h>
 
void func(void) {
  char c_str[3] = "abc";
  printf("%s\n", c_str);
}

Compliant Solution

This compliant solution does not specify the bound of the character array in the array declaration. If the array bound is omitted, the compiler allocates sufficient storage to store the entire string literal, including the terminating null character.

#include <stdio.h>
 
void func(void) {
  char c_str[] = "abc";
  printf("%s\n", c_str);
}

Noncompliant Code Example

This code example is noncompliant because the wide character sequence cur_msg will not be null-terminated when passed to wcslen(). This will occur if lessen_memory_usage() is invoked while cur_msg_size still has its initial value of 1024.

#include <stdlib.h>
#include <wchar.h>
 
wchar_t *cur_msg = NULL;
size_t cur_msg_size = 1024;
size_t cur_msg_len = 0;

void lessen_memory_usage(void) {
  wchar_t *temp;
  size_t temp_size;

  /* ... */

  if (cur_msg != NULL) {
    temp_size = cur_msg_size / 2 + 1;
    temp = realloc(cur_msg, temp_size * sizeof(wchar_t));
    /* temp &and cur_msg may no longer be null-terminated */
    if (temp == NULL) {
      /* Handle error */
    }

    cur_msg = temp;
    cur_msg_size = temp_size;
    cur_msg_len = wcslen(cur_msg); 
  }
}

Compliant Solution

In this compliant solution, cur_msg will always be null-terminated when passed to wcslen():

#include <stdlib.h>
#include <wchar.h>
 
wchar_t *cur_msg = NULL;
size_t cur_msg_size = 1024;
size_t cur_msg_len = 0;

void lessen_memory_usage(void) {
  wchar_t *temp;
  size_t temp_size;

  /* ... */

  if (cur_msg != NULL) {
    temp_size = cur_msg_size / 2 + 1;
    temp = realloc(cur_msg, temp_size * sizeof(wchar_t));
    /* temp and cur_msg may no longer be null-terminated */
    if (temp == NULL) {
      /* Handle error */
    }

    cur_msg = temp;
    /* Properly null-terminate cur_msg */
    cur_msg[temp_size - 1] = L'\0'; 
    cur_msg_size = temp_size;
    cur_msg_len = wcslen(cur_msg); 
  }
}

Noncompliant Code Example (strncpy())

Although the strncpy() function takes a string as input, it does not guarantee that the resulting value is still null-terminated. In the following noncompliant code example, if no null character is contained in the first n characters of the source array, the result will not be null-terminated. Passing a non-null-terminated character sequence to strlen() is undefined behavior.

#include <string.h>
 
enum { STR_SIZE = 32 };
 
size_t func(const char *source) {
  char c_str[STR_SIZE];

  c_str[sizeof(c_str) - 1] = '\0';
  strncpy(c_str, source, sizeof(c_str));
  return strlen(c_str);
}

Compliant Solution (Truncation)

This compliant solution is correct if the programmer's intent is to truncate the string:

#include <string.h>
 
enum { STR_SIZE = 32 };
 
size_t func(const char *source) {
  char c_str[STR_SIZE];

  strncpy(c_str, source, sizeof(c_str) - 1);
  c_str[sizeof(c_str) - 1] = '\0';
  return strlen(c_str);
}

Compliant Solution (Truncation, strncpy_s())

The C Standard, Annex K strncpy_s() function can also be used to copy with truncation. The strncpy_s() function copies up to n characters from the source array to a destination array. If no null character was copied from the source array, then the nth position in the destination array is set to a null character, guaranteeing that the resulting string is null-terminated.

#define __STDC_WANT_LIB_EXT1__ 1
#include <string.h>

enum { STR_SIZE = 32 };

size_t func(const char *source) {
  char a[STR_SIZE];

  if (source) {
    errno_t err = strncpy_s(
      a, sizeof(a), source, strlen(source)
    );
    if (err != 0) {
      /* Handle error */
    }
  } else {
     /* Handle null pointer */
  }
  return strlen_s(s, sizeof(a));
}

Compliant Solution (Copy without Truncation)

If the programmer's intent is to copy without truncation, this compliant solution copies the data and guarantees that the resulting array is null-terminated. If the string cannot be copied, it is handled as an error condition.

#include <string.h>
 
enum { STR_SIZE = 32 };
 
size_t func(const char *source) {
  char c_str[STR_SIZE];

  if (source) {
    if (strlen(source) < sizeof(c_str)) {
      strcpy(c_str, source);
    } else {
      /* Handle string-too-large */
    }
  } else {
    /* Handle null pointer */
  }
  return strlen(c_str);
}

Risk Assessment

Failure to properly null-terminate a character sequence that is passed to a library function that expects a string can result in buffer overflows and the execution of arbitrary code with the permissions of the vulnerable process. Null-termination errors can also result in unintended information disclosure.

Rule

Severity

Likelihood

Remediation Cost

Priority

Level

STR32-C

High

Probable

Medium

P12

L1

Automated Detection

Tool

Version

Checker

Description

Compass/ROSE

 

 

Can detect some violations of this rule

Coverity6.5STRING_NULLFully implemented

Klocwork

2024.3

NNTS

 

LDRA tool suite

9.7.1

404 S, 600 S

Partially implemented

Parasoft C/C++test9.5BD-PB-OVERFNZT 

Related Vulnerabilities

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

Related Guidelines

ISO/IEC TR 24772:2013String Termination [CMJ]
ISO/IEC TS 17961:2013Passing a non-null-terminated character sequence to a library function that expects a string [strmod]
MITRE CWE

CWE-119, Improper Restriction of Operations within the Bounds of a Memory Buffer
CWE-123, Write-what-where Condition
CWE-125, Out-of-bounds Read
CWE-170, Improper Null Termination

Bibliography

[Seacord 2013] Chapter 2, "Strings" 
[Viega 2005]Section 5.2.14, "Miscalculated NULL Termination"

 


 

 

 

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