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Sensitive data stored in reusable resources may be inadvertently leaked to a less privileged user or adversary attacker if not properly cleared. Examples of reusable resources include

  • dynamically Dynamically allocated memory
  • statically Statically allocated memory
  • automatically Automatically allocated (stack) memory
  • memory Memory caches
  • diskDisk
  • disk Disk caches

The manner in which sensitive information can be properly cleared varies depending on the resource type and platform.

...

Noncompliant Code Example

...

(free())

Wiki MarkupDynamic memory managers are not required to clear freed memory and generally do not because of the additional runtime overhead. Furthermore, dynamic memory managers are free to reallocate this same memory. As a result, it is possible to accidentally leak sensitive information if it is not cleared before calling a function that frees dynamic memory. Programmers also cannot rely on memory being cleared during allocation \[[MEM09-A. Do not assume memory allocation routines initialize memory]\].

To prevent information leakage, sensitive information must be cleared from dynamically allocated buffers before they are freed. Calling free() on a block of dynamic memory causes the space to be deallocated; that is, the memory block is made available for future allocation. However, the data stored in the block of memory to be recycled may be preserved. If this memory block contains sensitive information, that information may be unintentionally exposed.

In this noncompliant example, sensitive information stored in the dynamically allocated memory referenced by secret is copied to the dynamically allocated buffer, new_secret, which is processed and eventually deallocated by a call to free(). Because the memory is not cleared, it may be reallocated to another section of the program where the information stored in new_secret may be unintentionally leaked.

Code Block
bgColor#FFcccc
langc
char *secret;
/* ... Initialize secret to a null-terminated byte string, 
   of less than SIZE_MAX chars */
char *new_secret;
size_t size = strlen(secret);
if (size == SIZE_MAX) {
  /* Handle Error */
}

char *new_secret;
new_secret = (char *)malloc(size+1);
if (!new_secret) {
  /* Handle Errorerror */
}
strcpy(new_secret, secret);

/* Process new_secret... */

free(new_secret);
/* ... */new_secret = NULL;

Compliant Solution

To prevent information leakage, dynamic memory containing sensitive information should be sanitized before being freed. This Sanitization is commonly accomplished by clearing the allocated space (that is, filling the space with '\0' characters).

Code Block
bgColor#ccccff
langc
char *secret;
/* ... Initialize secret to a null-terminated byte string, 
   of less than SIZE_MAX chars */
char *new_secret;
size_t size = strlen(secret);
if (size == SIZE_MAX) {
  char *new_secret;
/* Handle Error */
}
/* use Use calloc() to zero-out allocated space */
new_secret = (char *)calloc(size+1, sizeof(char));
if (!new_secret) {
  /* Handle Errorerror */
}
strcpy(new_secret, secret);

/* Process new_secret... */

/* sanitizeSanitize memory  */
memset_s(new_secret, '\0', size);
free(new_secret);
/* ... */

Wiki Markup
The {{calloc()}} function ensures that the newly allocated memory has also been cleared. Because {{sizeof(char)}} is guaranteed to be 1, this solution does not need to check for a numeric overflow as a result of using {{calloc()}} \[[MEM07-A. Ensure that size arguments to calloc() do not result in an integer overflow]\].

Wiki Markup
NOTE: It is possible that the call to {{memset()}} in this example will be optimized out \[[MSC06-A. Be aware of compiler optimization when dealing with sensitive data]\].  Be very careful to ensure that any sensitive data is actually cleared from memory.

Non-Compliant Code Example: realloc()

new_secret = NULL;

The calloc() function ensures that the newly allocated memory has also been cleared. Because sizeof(char) is guaranteed to be 1, this solution does not need to check for a numeric overflow as a result of using calloc(). (See MEM07-C. Ensure that the arguments to calloc(), when multiplied, do not wrap.)

See MSC06-C. Beware of compiler optimizations for a definition and discussion of using the memset_s() function.

Noncompliant Code Example (realloc())

Reallocating memory using realloc() can have the same problem as freeing memory. Reallocating memory using the realloc() function is a regenerative case of freeing memory. The realloc() function deallocates the old object and returns a pointer to a new object. Wiki MarkupUsing {{Using realloc()}} to resize dynamic memory may inadvertently expose sensitive information, or it may allow heap inspection , as described in Fortify Taxonomy: Software Security Errors [Fortify 2006] and NIST's Source Code Analysis Tool Functional Specification [Black 2007].

In this example, when realloc() is called, it may allocate a new, larger object, copy the contents of secret to this new object, free() the original object, and assign the newly allocated object to secret. However, the contents of the original object may remain in 's _Taxonomy of Software Security Errors_ \[[vulncat|http://vulncat.fortifysoftware.com/2/HI.html]\] and NIST's _Source Code Analysis Tool Functional Specification_ \[[NIST 06b|AA. C References#NIST 06b]\]. When {{realloc()}} is called it may allocate a new, larger object, copy the contents of {{secret}} to this new object, {{free()}} the original object, and assign the newly allocated object to {{secret}}. However, the contents of the original object may remain in memory.

Code Block
bgColor#FFcccc
langc
char *secret;

/* Initialize ...secret */

size_t secret_size = strlen(secret);
/* ... */
if (secret_size > SIZE_MAX/2) {
   /* handleHandle error condition */
}
else {
secret = (char *)realloc(secret, secret_size * 2);
/* ... */
}

The Wiki MarkupThe {{secret_size}} is tested to ensure that the integer multiplication ({{secret_size * 2}}) does not result in an integer overflow \[[INT32overflow. (See INT30-C. Ensure that unsigned integer operations do not result in an overflow]\].not wrap.)

Compliant Solution

A compliant program cannot rely on realloc() because it is not possible to clear the memory prior to memory before the call. Instead, a custom function must be used that operates similar similarly to realloc() but sanitizes sensitive information as heap-based buffers are resized. Again, this sanitization is done by overwriting the space to be deallocated with '\0' characters.

Code Block
bgColor#ccccff
langc
char *secret;

/* ...Initialize secret */

size_t secret_size = strlen(secret);
char *temp_buff;
/* ... */
if (secret_size > SIZE_MAX/2) {
   /* handleHandle error condition */
}
/* calloc() initializes memory to zero */
temp_buff = (char *)calloc(secret_size * 2, sizeof(char));
if (temp_buff == NULL) {
 /* Handle Errorerror */
}

memcpy(temp_buff, secret, secret_size);

/* sanitizeSanitize the buffer */
memset((volatile char *)secret, '\0', secret_size);

free(secret);
secret = temp_buff; /* installInstall the resized buffer */
temp_buff = NULL;
/* ... */

Wiki MarkupThe {{calloc()}} function ensures that the newly allocated memory has also been cleared. Because {{allocated memory is also cleared. Because sizeof(char)}} is guaranteed to be 1, this solution does not need to check for a numeric overflow as a result of using {{calloc()}} \[[. (See MEM07-AC. Ensure that size the arguments to calloc() , when multiplied, do not result in an integer overflow]\].not wrap.)

Risk Assessment

Wiki MarkupIn practice, this type of [security flaw|BB. Definitions#security flaw] can expose sensitive information to unintended parties. The Sun tarball vulnerability discussed in _Secure Coding Principles & Practices: Designing and Implementing Secure Applications_ \[ [Graf 03|AA. C References#Graf 03]\] and [Sun Security Bulletin #00122 | http://sunsolve.sun.com/search/document.do?assetkey=1-22-00122-1] illustrates a violation of this recommendation, leading to sensitive data being leaked. Attackers may also be able to leverage this defect to retrieve sensitive information using techniques such as _heap inspection_2003] and Sun Security Bulletin #00122 [Sun 1993] shows a violation of this recommendation, leading to sensitive data being leaked. Attackers may also be able to leverage this defect to retrieve sensitive information using techniques such as heap inspection.

Recommendation

Severity

Likelihood

Remediation Cost

Priority

Level

MEM03-

A

2 (medium)

1 (unlikely)

3 (low)

P6

L2

C

Medium

Unlikely

High

P2

L3

Automated Detection

Tool

Version

Checker

Description

CodeSonar
Include Page
CodeSonar_V
CodeSonar_V
(customization)Users can add a custom check for use of realloc().
Compass/ROSE



Could detect possible violations of this rule by first flagging any usage of realloc(). Also, it could flag any usage of free that is not preceded by code to clear out the preceding memory, using memset. This heuristic is imperfect because it flags all possible data leaks, not just leaks of "sensitive" data, because ROSE cannot tell which data is sensitive

Helix QAC

Include Page
Helix QAC_V
Helix QAC_V

C5010
LDRA tool suite
Include Page
LDRA_V
LDRA_V
44 SEnhanced Enforcement
Parasoft C/C++test

Include Page
Parasoft_V
Parasoft_V

CERT_C-MEM03-aSensitive data should be cleared before being deallocated
Polyspace Bug Finder

Include Page
Polyspace Bug Finder_V
Polyspace Bug Finder_V

CERT C: Rec. MEM03-C


Checks for:

  • Sensitive heap memory not cleared before release
  • Uncleared sensitive data in stack

Rec. partially covered.

PVS-Studio

Include Page
PVS-Studio_V
PVS-Studio_V

V1072

Related Vulnerabilities

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

References

Wiki Markup
\[[Graff 03|AA. C References#Graf 03]\]
\[[ISO/IEC 9899-1999|AA. C References#ISO/IEC 9899-1999]\] Section 7.20.3, "Memory management functions"
\[[NIST 06b|AA. C References#NIST 06b]\]

Related Guidelines

ISO/IEC TR 24772:2013Sensitive Information Uncleared Before Use [XZK]
MITRE CWECWE-226, Sensitive information uncleared before release
CWE-244, Failure to clear heap memory before release ("heap inspection")

Bibliography


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Image Added Image Added Image AddedMEM02-A. Immediately cast the result of a memory allocation function call into a pointer to the allocated type      08. Memory Management (MEM)       MEM04-A. Do not perform zero length allocations