CWE-639

Nome

Authorization Bypass Through User-Controlled Key

Probabilidade

Alta

Status

Incomplete

Publicado

2008-01-30
00h00 +00:00

Modificado

2025-12-11
00h00 +00:00

Links oficiais

CWE Mitre.org

Notificações para um CWE

Fique informado sobre quaisquer alterações para um CWE específico.

Gerenciar notificações

Alertas personalizados

Ative seus alertas personalizados!

Para ativar seus alertas, basta estar conectado à sua conta gratuita. Se ainda não estiver conectado, escolha uma das opções abaixo.

Entrar na sua conta Criar uma conta Gratuita

Notificações para um CWE

Fique informado sobre quaisquer alterações para um CWE específico.

Parâmetros

Você pode especificar um título que será recuperado nos alertas que serão enviados.

Especifique o ID do CWE que deseja monitorar.

Agendamento

Mês

Cálculo da próxima execução

Dia

Dia da semana

Hora

Minuto

Data de criação

Última execução

Próxima execução

Nome: Authorization Bypass Through User-Controlled Key

The system's authorization functionality does not prevent one user from gaining access to another user's data or record by modifying the key value identifying the data.

Informações Gerais

Modos de Introdução

Architecture and Design : REALIZATION: This weakness is caused during implementation of an architectural security tactic.

Plataformas Aplicáveis

Linguagem

Class: Not Language-Specific (Undetermined)

Consequências Comuns

Escopo	Impacto	Probabilidade
Access Control	Bypass Protection Mechanism Note: Access control checks for specific user data or functionality can be bypassed.
Access Control	Gain Privileges or Assume Identity Note: Horizontal escalation of privilege is possible (one user can view/modify information of another user).
Access Control	Gain Privileges or Assume Identity Note: Vertical escalation of privilege is possible if the user-controlled key is actually a flag that indicates administrator status, allowing the attacker to gain administrative access.

Exemplos Observados

Referências	Descrição
CVE-2021-36539	An educational application does not appropriately restrict file IDs to a particular user. The attacker can brute-force guess IDs, indicating IDOR.

Mitigações Potenciais

Phases : Architecture and Design
For each and every data access, ensure that the user has sufficient privilege to access the record that is being requested.
Phases : Architecture and Design // Implementation
Make sure that the key that is used in the lookup of a specific user's record is not controllable externally by the user or that any tampering can be detected.
Phases : Architecture and Design
Use encryption in order to make it more difficult to guess other legitimate values of the key or associate a digital signature with the key so that the server can verify that there has been no tampering.

Métodos de Detecção

Automated Static Analysis

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.)
Eficácia : High

Notas de Mapeamento de Vulnerabilidade

Justificativa : This CWE entry is at the Base level of abstraction, which is a preferred level of abstraction for mapping to the root causes of vulnerabilities.
Comentário : Carefully read both the name and description to ensure that this mapping is an appropriate fit. Do not try to 'force' a mapping to a lower-level Base/Variant simply to comply with this preferred level of abstraction.

Referências

Submissão

Nome	Organização	Data	Data de lançamento	Version
Evgeny Lebanidze	Cigital	2008-01-30 +00:00	2008-01-30 +00:00	Draft 8

Modificações

Nome	Organização	Data	Comentário
CWE Content Team	MITRE	2008-09-08 +00:00	updated Common_Consequences, Relationships, Type
CWE Content Team	MITRE	2008-10-14 +00:00	updated Description
CWE Content Team	MITRE	2009-03-10 +00:00	updated Relationships
CWE Content Team	MITRE	2009-05-27 +00:00	updated Relationships
CWE Content Team	MITRE	2009-10-29 +00:00	updated Common_Consequences
CWE Content Team	MITRE	2010-06-21 +00:00	updated Relationships
CWE Content Team	MITRE	2011-03-29 +00:00	updated Alternate_Terms, Applicable_Platforms, Description, Name, Potential_Mitigations, Relationships
CWE Content Team	MITRE	2011-06-01 +00:00	updated Common_Consequences, Relationships
CWE Content Team	MITRE	2012-05-11 +00:00	updated Relationships
CWE Content Team	MITRE	2013-02-21 +00:00	updated Alternate_Terms, Common_Consequences
CWE Content Team	MITRE	2013-07-17 +00:00	updated Relationships
CWE Content Team	MITRE	2014-07-30 +00:00	updated Relationships
CWE Content Team	MITRE	2017-11-08 +00:00	updated Description, Enabling_Factors_for_Exploitation, Modes_of_Introduction, Relationships
CWE Content Team	MITRE	2018-03-27 +00:00	updated Relationships
CWE Content Team	MITRE	2019-06-20 +00:00	updated Relationships
CWE Content Team	MITRE	2020-02-24 +00:00	updated Relationships
CWE Content Team	MITRE	2020-06-25 +00:00	updated Alternate_Terms
CWE Content Team	MITRE	2020-12-10 +00:00	updated Relationships
CWE Content Team	MITRE	2021-03-15 +00:00	updated Alternate_Terms
CWE Content Team	MITRE	2021-10-28 +00:00	updated Relationships
CWE Content Team	MITRE	2023-04-27 +00:00	updated Detection_Factors, Relationships
CWE Content Team	MITRE	2023-06-29 +00:00	updated Mapping_Notes
CWE Content Team	MITRE	2023-10-26 +00:00	updated Observed_Examples
CWE Content Team	MITRE	2024-02-29 +00:00	updated Demonstrative_Examples
CWE Content Team	MITRE	2025-12-11 +00:00	updated References, Relationships, Weakness_Ordinalities

CWE-639 Detalhe