CWE-488 Base Brouillon

Exposure of Data Element to Wrong Session

This vulnerability occurs when an application fails to properly isolate data between different user sessions, allowing information from one user's session to leak into another's.

Définition

What is CWE-488?

This vulnerability occurs when an application fails to properly isolate data between different user sessions, allowing information from one user's session to leak into another's.

This flaw typically happens when application components, like singleton objects or pooled resources, are incorrectly used to store user-specific data. For instance, in Java Servlets, a single instance often handles requests for all users simultaneously. If a developer stores user data in the Servlet's member fields instead of the proper request or session scope, one user's data can become visible to another user, creating a race condition. To prevent this, always store user state in the appropriate session context (like `HttpSession`) or within local method variables, never in shared object fields. Ensure your design clearly separates per-request data from shared application data, and understand the threading model of your framework's components.

Impact réel

Real-world CVEs caused by CWE-488

Aucune référence CVE publique n'est liée à ce CWE dans le catalogue MITRE pour le moment.

Comment les attaquants l'exploitent

Parcours de l'attaquant étape par étape

1
Identifier un chemin de code qui traite des entrées non fiables sans validation.
2
Élaborer une charge utile qui exploite le comportement non sécurisé — injection, traversal, débordement ou abus de logique.
3
Délivrer la charge utile via une requête normale et observer la réaction de l'application.
4
Itérer jusqu'à ce que la réponse divulgue des données, exécute le code de l'attaquant ou élève les privilèges.

Exemple de code vulnérable

Vulnerable Java

The following Servlet stores the value of a request parameter in a member field and then later echoes the parameter value to the response output stream.

Vulnérable Java

public class GuestBook extends HttpServlet {
  		String name;
  		protected void doPost (HttpServletRequest req, HttpServletResponse res) {
  			name = req.getParameter("name");
  			...
  			out.println(name + ", thanks for visiting!");
  		}
  }

Exemple de code sécurisé

Secure pseudo

Sécurisé 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.

Liste de contrôle de prévention

How to prevent CWE-488

Architecture and Design Protect the application's sessions from information leakage. Make sure that a session's data is not used or visible by other sessions.
Testing Use a static analysis tool to scan the code for information leakage vulnerabilities (e.g. Singleton Member Field).
Architecture and Design In a multithreading environment, storing user data in Servlet member fields introduces a data access race condition. Do not use member fields to store information in the Servlet.

Signaux de détection

How to detect CWE-488

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.)

Correction automatique Plexicus

Plexicus détecte automatiquement CWE-488 et ouvre une PR de correction en moins de 60 secondes.

Codex Remedium analyse chaque commit, identifie cette faiblesse précise et livre une pull request prête à être relue avec le correctif. Pas de tickets. Pas de transferts.

Obtenir une démo Essayer Plexicus gratuitement

Questions fréquentes

Frequently asked questions

Qu'est-ce que CWE-488 ?

This vulnerability occurs when an application fails to properly isolate data between different user sessions, allowing information from one user's session to leak into another's.

Quelle est la gravité de CWE-488 ?

MITRE n'a pas publié de note de probabilité d'exploitation pour cette faiblesse. Traitez-la comme un impact moyen jusqu'à ce que votre modèle de menace prouve le contraire.

Quels langages ou plateformes sont affectés par CWE-488 ?

MITRE n'a pas spécifié les plateformes affectées pour ce CWE — il peut s'appliquer à la plupart des stacks applicatives.

Comment puis-je prévenir CWE-488 ?

Protect the application's sessions from information leakage. Make sure that a session's data is not used or visible by other sessions. Use a static analysis tool to scan the code for information leakage vulnerabilities (e.g. Singleton Member Field).

Comment Plexicus détecte et corrige CWE-488 ?

Le moteur SAST de Plexicus reconnaît la signature de flux de données de CWE-488 à chaque commit. Lorsqu'une correspondance est trouvée, notre agent Codex Remedium ouvre une PR de correction avec le code corrigé, les tests et un résumé d'une ligne pour le relecteur.

Où puis-je en savoir plus sur CWE-488 ?

MITRE publie la définition canonique à https://cwe.mitre.org/data/definitions/488.html. Vous pouvez également consulter la documentation OWASP et NIST pour des conseils adjacents.

Faiblesses associées

Weaknesses related to CWE-488

CWE-668 Parent

Exposure of Resource to Wrong Sphere

This vulnerability occurs when an application unintentionally makes a resource accessible to users or systems that should not have…

CWE-1189 Frère

Improper Isolation of Shared Resources on System-on-a-Chip (SoC)

This vulnerability occurs when a System-on-a-Chip (SoC) fails to properly separate shared hardware resources between secure (trusted) and…

CWE-1282 Frère

Assumed-Immutable Data is Stored in Writable Memory

This vulnerability occurs when data that should be permanent and unchangeable—like a bootloader, device IDs, or one-time configuration…

CWE-1327 Frère

Binding to an Unrestricted IP Address

This vulnerability occurs when software or a service is configured to bind to the IP address 0.0.0.0 (or :: in IPv6), which acts as a…

CWE-1331 Frère

Improper Isolation of Shared Resources in Network On Chip (NoC)

This vulnerability occurs when a Network on Chip (NoC) fails to properly separate its internal, shared resources—like buffers, switches,…

CWE-134 Frère

Use of Externally-Controlled Format String

This vulnerability occurs when a program uses a format string from an untrusted, external source (like user input, a network packet, or a…

CWE-200 Frère

Exposure of Sensitive Information to an Unauthorized Actor

This weakness occurs when an application unintentionally reveals sensitive data to someone who shouldn't have access to it.

CWE-374 Frère

Passing Mutable Objects to an Untrusted Method

This vulnerability occurs when a function receives a direct reference to mutable data, such as an object or array, instead of a safe copy…

CWE-375 Frère

Returning a Mutable Object to an Untrusted Caller

This vulnerability occurs when a method directly returns a reference to its internal mutable data, allowing untrusted calling code to…

Ressources

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Exposure of Data Element to Wrong Session

What is CWE-488?

Real-world CVEs caused by CWE-488

Parcours de l'attaquant étape par étape

Vulnerable Java

Secure pseudo

How to prevent CWE-488

How to detect CWE-488

Plexicus détecte automatiquement CWE-488 et ouvre une PR de correction en moins de 60 secondes.

Frequently asked questions

Weaknesses related to CWE-488

Exposure of Resource to Wrong Sphere

Improper Isolation of Shared Resources on System-on-a-Chip (SoC)

Assumed-Immutable Data is Stored in Writable Memory

Binding to an Unrestricted IP Address

Improper Isolation of Shared Resources in Network On Chip (NoC)

Use of Externally-Controlled Format String

Exposure of Sensitive Information to an Unauthorized Actor

Passing Mutable Objects to an Untrusted Method

Returning a Mutable Object to an Untrusted Caller

Further reading

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Commencez à fermer la boucle.