CWE-521 Base Rascunho

Weak Password Requirements

This vulnerability occurs when an application fails to enforce strong password policies, making user accounts easier to compromise through guessing or automated attacks.

Definição

What is CWE-521?

This vulnerability occurs when an application fails to enforce strong password policies, making user accounts easier to compromise through guessing or automated attacks.
Passwords are the most common form of user authentication, acting as a memorized secret to verify identity. If password rules are too weak—like allowing short, simple, or common passwords—attackers can quickly guess or brute-force them, leading to unauthorized account access. The required strength depends on what the system protects; a social media account needs different safeguards than a banking application. Implementing effective password requirements is a critical security control. Developers must establish and enforce policies that mandate sufficient length, complexity, and uniqueness, while also considering user experience through secure alternatives like password managers. Getting this balance right is essential for protecting user accounts and maintaining trust in the authentication system.
Impacto no mundo real

Real-world CVEs caused by CWE-521

  • CVE-2020-4574

    key server application does not require strong passwords

Como os atacantes a exploram

Trajeto do atacante passo a passo

  1. 1

    Identificar um caminho de código que trata input não confiável sem validação.

  2. 2

    Criar um payload que explora o comportamento inseguro — injeção, traversal, overflow ou abuso de lógica.

  3. 3

    Entregar o payload através de um pedido normal e observar a reação da aplicação.

  4. 4

    Iterar até que a resposta exponha dados, execute código do atacante ou escale privilégios.

Exemplo de código vulnerável

Vulnerable pseudo

A MITRE não publicou um exemplo de código para este CWE. O padrão abaixo é ilustrativo — consulte os Recursos para referências canónicas.

Vulnerável pseudo 
// Example pattern — see MITRE for the canonical references.
function handleRequest(input) {
  // Untrusted input flows directly into the sensitive sink.
  return executeUnsafe(input);
}
Exemplo de código seguro

Secure pseudo

Seguro pseudo 
// Validate, sanitize, or use a safe API before reaching the sink.
function handleRequest(input) {
  const safe = validateAndEscape(input);
  return executeWithGuards(safe);
}
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-521

  • Architecture and Design A product's design should require adherance to an appropriate password policy. Specific password requirements depend strongly on contextual factors, but it is recommended to contain the following attributes: - Enforcement of a minimum and maximum length - Restrictions against password reuse - Restrictions against using common passwords - Restrictions against using contextual string in the password (e.g., user id, app name) Depending on the threat model, the password policy may include several additional attributes. - Complex passwords requiring mixed character sets (alpha, numeric, special, mixed case) - Increasing the range of characters makes the password harder to crack and may be appropriate for systems relying on single factor authentication. - Unfortunately, a complex password may be difficult to memorize, encouraging a user to select a short password or to incorrectly manage the password (write it down). - Another disadvantage of this approach is that it often does not result in a significant increases in overal password complexity due to people's predictable usage of various symbols. 1. Large Minimum Length (encouraging passphrases instead of passwords) - Increasing the number of characters makes the password harder to crack and may be appropriate for systems relying on single factor authentication. - A disadvantage of this approach is that selecting a good passphrase is not easy and poor passwords can still be generated. Some prompting may be needed to encourage long un-predictable passwords. 1. Randomly Chosen Secrets - Generating a password for the user can help make sure that length and complexity requirements are met, and can result in secure passwords being used. - A disadvantage of this approach is that the resulting password or passpharse may be too difficult to memorize, encouraging them to be written down. See NIST 800-63B [REF-1053] for further information on password requirements.
  • Architecture and Design Consider a second authentication factor beyond the password, which prevents the password from being a single point of failure. See CWE-308 for further information.
  • Implementation Consider implementing a password complexity meter to inform users when a chosen password meets the required attributes.
  • Implementation Previously, "password expiration" was widely advocated as a defense-in-depth approach to minimize the risk of weak passwords, and it has become a common practice. Password expiration requires a password to be changed within a fixed time window (such as every 90 days). However, this approach has significant limitations in the current threat landscape, and its utility has been reduced in light of the adoption of related protection mechanisms (such as password complexity and computational effort), along with the recognition that regular password changes often caused users to generate more predictable passwords. As a result, this is now a Discouraged Common Practice [REF-1488] [REF-1489], especially as the sole factor in protecting passwords. It is still strongly encouraged to force password changes in case of evidence of compromise, but this is not the same as a forced "expiration" on an arbitrary time frame.
Sinais de deteção

How to detect CWE-521

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-521 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.

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Perguntas frequentes

Frequently asked questions

O que é o CWE-521?

This vulnerability occurs when an application fails to enforce strong password policies, making user accounts easier to compromise through guessing or automated attacks.

Qual a gravidade do CWE-521?

A MITRE não publicou uma classificação de probabilidade de exploração para esta fraqueza. Trate-a como impacto médio até o seu modelo de ameaças provar o contrário.

Que linguagens ou plataformas são afetadas pelo CWE-521?

MITRE lists the following affected platforms: Not Technology-Specific.

Como posso prevenir o CWE-521?

A product's design should require adherance to an appropriate password policy. Specific password requirements depend strongly on contextual factors, but it is recommended to contain the following attributes: - Enforcement of a minimum and maximum length - Restrictions against password reuse - Restrictions against using common passwords - Restrictions against using contextual string in the password (e.g., user id, app name) Depending on the threat model, the password policy may include several…

Como é que o Plexicus deteta e corrige o CWE-521?

O motor SAST do Plexicus correlaciona a assinatura de fluxo de dados do CWE-521 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-521?

A MITRE publica a definição canónica em https://cwe.mitre.org/data/definitions/521.html. Pode também consultar a documentação da OWASP e do NIST para orientações adjacentes.

Fraquezas relacionadas

Weaknesses related to CWE-521

CWE-1391 Pai

Use of Weak Credentials

This vulnerability occurs when a system relies on weak authentication credentials—like default passwords, hard-coded keys, or easily…

CWE-1392 Irmão

Use of Default Credentials

This vulnerability occurs when a system, device, or application relies on pre-configured, publicly known credentials like passwords or…

CWE-798 Irmão

Use of Hard-coded Credentials

This vulnerability occurs when software contains built-in, unchangeable authentication secrets like passwords or encryption keys within…

CWE-258 Filho

Empty Password in Configuration File

This vulnerability occurs when a configuration file, script, or application uses an empty string as a password, effectively disabling…

Recursos

Further reading

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