CWE-252 Base Rascunho Low likelihood

Unchecked Return Value

This vulnerability occurs when a program fails to verify the result of a function or method call, allowing it to continue execution without detecting errors or unexpected conditions.

Definição

What is CWE-252?

This vulnerability occurs when a program fails to verify the result of a function or method call, allowing it to continue execution without detecting errors or unexpected conditions.

Developers often assume critical operations will always succeed or that their failure is inconsequential. However, attackers can exploit these unchecked return values by forcing functions to fail or return unexpected data, tricking the application into operating in an insecure, unintended state. For instance, if a privilege-dropping function fails silently, the program continues running with elevated access, creating a severe security gap. To prevent this, treat every function call that can impact security or stability as having a potential failure state. Always validate return codes, especially for security-critical operations like memory allocation, file operations, authentication checks, and system configuration changes. Implementing consistent error handling ensures the application responds safely to unexpected conditions rather than proceeding with flawed assumptions.

Impacto no mundo real

Real-world CVEs caused by CWE-252

CVE-2020-17533

Chain: unchecked return value (CWE-252) of some functions for policy enforcement leads to authorization bypass (CWE-862)
CVE-2020-6078

Chain: The return value of a function returning a pointer is not checked for success (CWE-252) resulting in the later use of an uninitialized variable (CWE-456) and a null pointer dereference (CWE-476)
CVE-2019-15900

Chain: sscanf() call is used to check if a username and group exists, but the return value of sscanf() call is not checked (CWE-252), causing an uninitialized variable to be checked (CWE-457), returning success to allow authorization bypass for executing a privileged (CWE-863).
CVE-2007-3798

Unchecked return value leads to resultant integer overflow and code execution.
CVE-2006-4447

Program does not check return value when invoking functions to drop privileges, which could leave users with higher privileges than expected by forcing those functions to fail.
CVE-2006-2916

Program does not check return value when invoking functions to drop privileges, which could leave users with higher privileges than expected by forcing those functions to fail.
CVE-2008-5183

chain: unchecked return value can lead to NULL dereference
CVE-2010-0211

chain: unchecked return value (CWE-252) leads to free of invalid, uninitialized pointer (CWE-824).

Como os atacantes a exploram

Trajeto do atacante passo a passo

1
Consider the following code segment:
2
The programmer expects that when fgets() returns, buf will contain a null-terminated string of length 9 or less. But if an I/O error occurs, fgets() will not null-terminate buf. Furthermore, if the end of the file is reached before any characters are read, fgets() returns without writing anything to buf. In both of these situations, fgets() signals that something unusual has happened by returning NULL, but in this code, the warning will not be noticed. The lack of a null terminator in buf can result in a buffer overflow in the subsequent call to strcpy().
3
In the following example, it is possible to request that memcpy move a much larger segment of memory than assumed:
4
If returnChunkSize() happens to encounter an error it will return -1. Notice that the return value is not checked before the memcpy operation (CWE-252), so -1 can be passed as the size argument to memcpy() (CWE-805). Because memcpy() assumes that the value is unsigned, it will be interpreted as MAXINT-1 (CWE-195), and therefore will copy far more memory than is likely available to the destination buffer (CWE-787, CWE-788).
5
The following code does not check to see if memory allocation succeeded before attempting to use the pointer returned by malloc().

Exemplo de código vulnerável

Vulnerable C

Consider the following code segment:

Vulnerável C

char buf[10], cp_buf[10];
  fgets(buf, 10, stdin);
  strcpy(cp_buf, buf);

Exemplo de código seguro

Secure C

In order to avoid data races, correctly written programs must check the result of thread synchronization functions and appropriately handle all errors, either by attempting to recover from them or reporting them to higher levels.

Seguro C

int f(pthread_mutex_t *mutex) {
  		int result;
  		result = pthread_mutex_lock(mutex);
  		if (0 != result)
  			return result;
```
/* access shared resource */* 
  		
  		
  		return pthread_mutex_unlock(mutex);}

What changed: the unsafe sink is replaced (or the input is validated/escaped) so the same payload no longer triggers the weakness.

Lista de verificação de prevenção

How to prevent CWE-252

Implementation Check the results of all functions that return a value and verify that the value is expected.
Implementation For any pointers that could have been modified or provided from a function that can return NULL, check the pointer for NULL before use. When working with a multithreaded or otherwise asynchronous environment, ensure that proper locking APIs are used to lock before the check, and unlock when it has finished [REF-1484].
Implementation Ensure that you account for all possible return values from the function.
Implementation When designing a function, make sure you return a value or throw an exception in case of an error.

Sinais de deteção

How to detect CWE-252

Automated Static Analysis High

Automated static analysis, commonly referred to as Static Application Security Testing (SAST), can find some instances of this weakness by analyzing source code (or binary/compiled code) without having to execute it. Typically, this is done by building a model of data flow and control flow, then searching for potentially-vulnerable patterns that connect "sources" (origins of input) with "sinks" (destinations where the data interacts with external components, a lower layer such as the OS, etc.)

Correção automática do Plexicus

O Plexicus deteta automaticamente o CWE-252 e abre um PR de correção em menos de 60 segundos.

O Codex Remedium analisa cada commit, identifica esta fraqueza exata e entrega um pull request pronto para revisão com o patch. Sem tickets. Sem transferências.

Obter uma demonstração Experimente o Plexicus gratuitamente

Perguntas frequentes

Frequently asked questions

O que é o CWE-252?

This vulnerability occurs when a program fails to verify the result of a function or method call, allowing it to continue execution without detecting errors or unexpected conditions.

Qual a gravidade do CWE-252?

A MITRE classifica a probabilidade de exploração como Baixa — a exploração é pouco comum, mas a fraqueza deve mesmo assim ser corrigida quando descoberta.

Que linguagens ou plataformas são afetadas pelo CWE-252?

A MITRE não especificou as plataformas afetadas por este CWE — pode aplicar-se à maioria das stacks de aplicações.

Como posso prevenir o CWE-252?

Check the results of all functions that return a value and verify that the value is expected. For any pointers that could have been modified or provided from a function that can return NULL, check the pointer for NULL before use. When working with a multithreaded or otherwise asynchronous environment, ensure that proper locking APIs are used to lock before the check, and unlock when it has finished [REF-1484].

Como é que o Plexicus deteta e corrige o CWE-252?

O motor SAST do Plexicus correlaciona a assinatura de fluxo de dados do CWE-252 em cada commit. Quando é encontrada uma correspondência, o nosso agente Codex Remedium abre um PR de correção com o código corrigido, testes e um resumo de uma linha para o revisor.

Onde posso saber mais sobre o CWE-252?

A MITRE publica a definição canónica em https://cwe.mitre.org/data/definitions/252.html. Pode também consultar a documentação da OWASP e do NIST para orientações adjacentes.

Fraquezas relacionadas

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