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Mutexes are used to protect shared data structures being accessed concurrently. The thread that locks the mutex owns it, and the owning thread should be the only thread to unlock the mutex. If the mutex is destroyed while still in use, critical sections and shared data are no longer protected. This rule is a specific instance of  CON31-C. Do not unlock or destroy another thread's mutex using POSIX threads.

Noncompliant Code Example

In this noncompliant code example, a race condition exists between a cleanup and a worker thread. The cleanup thread destroys the lock, which it believes is no longer in use. If there is a heavy load on the system, the worker thread that held the lock can take longer than expected. If the lock is destroyed before the worker thread has completed modifying the shared data, the program may exhibit unexpected behavior.

pthread_mutex_t theLock;
int data;

int cleanupAndFinish(void) {
  int result;
  if ((result = pthread_mutex_destroy(&theLock)) != 0) {
    /* Handle error */
  }
  data++;
  return data;
}

void worker(int value) {
  if ((result = pthread_mutex_lock(&theLock)) != 0) {
    /* Handle error */
  }
  data += value;
  if ((result = pthread_mutex_unlock(&theLock)) != 0) {
    /* Handle error */
  }
}

Compliant Solution

This compliant solution requires that there is no chance a mutex will be needed after it has been destroyed. As always, it is important to check for error conditions when locking the mutex.

mutex_t theLock;
int data;

int cleanupAndFinish(void) {
  int result;

  /* A user-written function that is application-dependent */
  wait_for_all_threads_to_finish();
  if ((result = pthread_mutex_destroy(&theLock)) != 0) {
    /* Handle error */
  }
  data++;
  return data;
}

void worker(int value) {
  int result;
  if ((result = pthread_mutex_lock(&theLock)) != 0) {
    /* Handle error */
  }
  data += value;
  if ((result = pthread_mutex_unlock(&theLock)) != 0) {
    /* Handle error */
  }
}

Risk Assessment

The risks of ignoring mutex ownership are similar to the risk of not using mutexes at all, which can result in a violation of data integrity.

Rule

Severity

Likelihood

Remediation Cost

Priority

Level

POS48-C

Medium

Probable

High

P4

L3

Automated Detection

Tool

Version

Checker

Description

Helix QAC

2024.3

C4971, C4972, C4981, C4982

C++4971, C++4972, C++4981, C++4982


Parasoft C/C++test

2023.1

CERT_C-POS48-a
CERT_C-POS48-b

Do not destroy another thread's mutex
Do not release a lock that has not been acquired

Polyspace Bug Finder

R2024a

CERT C: Rule POS48-CChecks for destruction of locked mutex (rule fully covered)
PRQA QA-C

Unable to render {include} The included page could not be found.

4971, 4972, 4981, 4982

Related Vulnerabilities

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

Related Guidelines

Key here (explains table format and definitions)

Taxonomy

Taxonomy item

Relationship

CWE 2.11CWE-667, Insufficient locking2017-07-10: CERT: Rule subset of CWE

CERT-CWE Mapping Notes

Key here for mapping notes

CWE-667 and CON31-C/POS48-C

Intersection( CON31-C, POS48-C) = Ø

CWE-667 = Union, CON31-C, POS48-C, list) where list =


  • Locking & Unlocking issues besides unlocking another thread’s C mutex or pthread mutex.


Bibliography



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