CWE-642 Class Draft High likelihood

External Control of Critical State Data

This vulnerability occurs when an application stores security-sensitive state data in locations that unauthorized users can access and modify.

Definition

What is CWE-642?

This vulnerability occurs when an application stores security-sensitive state data in locations that unauthorized users can access and modify.
Applications often track critical state information—like authentication status, user permissions, or session details—in client-side locations such as cookies, hidden form fields, URL parameters, environment variables, or configuration files. Attackers can tamper with this data because these storage mechanisms are frequently outside the application's direct control. If the app trusts this manipulated state without validation, it can lead to severe security breaches, such as letting an attacker forge an "authenticated=true" cookie to bypass login. To prevent this, developers must never rely on client-side storage for security-critical decisions without robust server-side verification. Treat all client-provided state data as untrusted input. Implement integrity checks like cryptographic signatures, store sensitive state exclusively on the server using secure sessions, and validate all state transitions on the backend to ensure attackers cannot manipulate application logic or access unauthorized resources.
Auswirkungen in der Praxis

Real-world CVEs caused by CWE-642

  • CVE-2005-2428

    Mail client stores password hashes for unrelated accounts in a hidden form field.

  • CVE-2008-0306

    Privileged program trusts user-specified environment variable to modify critical configuration settings.

  • CVE-1999-0073

    Telnet daemon allows remote clients to specify critical environment variables for the server, leading to code execution.

  • CVE-2007-4432

    Untrusted search path vulnerability through modified LD_LIBRARY_PATH environment variable.

  • CVE-2006-7191

    Untrusted search path vulnerability through modified LD_LIBRARY_PATH environment variable.

  • CVE-2008-5738

    Calendar application allows bypass of authentication by setting a certain cookie value to 1.

  • CVE-2008-5642

    Setting of a language preference in a cookie enables path traversal attack.

  • CVE-2008-5125

    Application allows admin privileges by setting a cookie value to "admin."

Wie Angreifer es ausnutzen

Angreiferpfad Schritt für Schritt

  1. 1

    In the following example, an authentication flag is read from a browser cookie, thus allowing for external control of user state data.

  2. 2

    The following code uses input from an HTTP request to create a file name. The programmer has not considered the possibility that an attacker could provide a file name such as "../../tomcat/conf/server.xml", which causes the application to delete one of its own configuration files (CWE-22).

  3. 3

    The following code uses input from a configuration file to determine which file to open and echo back to the user. If the program runs with privileges and malicious users can change the configuration file, they can use the program to read any file on the system that ends with the extension .txt.

  4. 4

    This program is intended to execute a command that lists the contents of a restricted directory, then performs other actions. Assume that it runs with setuid privileges in order to bypass the permissions check by the operating system.

  5. 5

    This code may look harmless at first, since both the directory and the command are set to fixed values that the attacker can't control. The attacker can only see the contents for DIR, which is the intended program behavior. Finally, the programmer is also careful to limit the code that executes with raised privileges.

Verwundbares Codebeispiel

Vulnerable Java

In the following example, an authentication flag is read from a browser cookie, thus allowing for external control of user state data.

Verwundbar Java 
Cookie[] cookies = request.getCookies();
  for (int i =0; i< cookies.length; i++) {
  	Cookie c = cookies[i];
  	if (c.getName().equals("authenticated") && Boolean.TRUE.equals(c.getValue())) {
  		authenticated = true;
  	}
  }
Angreifer-Payload

However, because the program does not modify the PATH environment variable, the following attack would work:

Angreifer-Payload 
- The user sets the PATH to reference a directory under the attacker's control, such as "/my/dir/".

  - The attacker creates a malicious program called "ls", and puts that program in /my/dir

  - The user executes the program.

  - When system() is executed, the shell consults the PATH to find the ls program

  - The program finds the attacker's malicious program, "/my/dir/ls". It doesn't find "/bin/ls" because PATH does not contain "/bin/".

  - The program executes the attacker's malicious program with the raised privileges.
Sicheres Codebeispiel

Secure pseudo

Sicher 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.
Präventions-Checkliste

How to prevent CWE-642

  • Architecture and Design Understand all the potential locations that are accessible to attackers. For example, some programmers assume that cookies and hidden form fields cannot be modified by an attacker, or they may not consider that environment variables can be modified before a privileged program is invoked.
  • Architecture and Design Store state information and sensitive data on the server side only. Ensure that the system definitively and unambiguously keeps track of its own state and user state and has rules defined for legitimate state transitions. Do not allow any application user to affect state directly in any way other than through legitimate actions leading to state transitions. If information must be stored on the client, do not do so without encryption and integrity checking, or otherwise having a mechanism on the server side to catch tampering. Use a message authentication code (MAC) algorithm, such as Hash Message Authentication Code (HMAC) [REF-529]. Apply this against the state or sensitive data that has to be exposed, which can guarantee the integrity of the data - i.e., that the data has not been modified. Ensure that a strong hash function is used (CWE-328).
  • Architecture and Design Store state information on the server side only. Ensure that the system definitively and unambiguously keeps track of its own state and user state and has rules defined for legitimate state transitions. Do not allow any application user to affect state directly in any way other than through legitimate actions leading to state transitions.
  • Architecture and Design Use a vetted library or framework that does not allow this weakness to occur or provides constructs that make this weakness easier to avoid [REF-1482]. With a stateless protocol such as HTTP, use some frameworks can maintain the state for you. Examples include ASP.NET View State and the OWASP ESAPI Session Management feature. Be careful of language features that provide state support, since these might be provided as a convenience to the programmer and may not be considering security.
  • Architecture and Design For any security checks that are performed on the client side, ensure that these checks are duplicated on the server side, in order to avoid CWE-602. Attackers can bypass the client-side checks by modifying values after the checks have been performed, or by changing the client to remove the client-side checks entirely. Then, these modified values would be submitted to the server.
  • Operation / Implementation When using PHP, configure the application so that it does not use register_globals. During implementation, develop the application so that it does not rely on this feature, but be wary of implementing a register_globals emulation that is subject to weaknesses such as CWE-95, CWE-621, and similar issues.
  • Testing Use automated static analysis tools that target this type of weakness. Many modern techniques use data flow analysis to minimize the number of false positives. This is not a perfect solution, since 100% accuracy and coverage are not feasible.
  • Testing Use dynamic tools and techniques that interact with the product using large test suites with many diverse inputs, such as fuzz testing (fuzzing), robustness testing, and fault injection. The product's operation may slow down, but it should not become unstable, crash, or generate incorrect results.
Erkennungssignale

How to detect CWE-642

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.)

Plexicus Auto-Fix

Plexicus erkennt CWE-642 automatisch und öffnet in unter 60 Sekunden einen Fix-PR.

Codex Remedium scannt jeden Commit, identifiziert genau diese Schwachstelle und liefert einen reviewer-ready Pull Request mit dem Patch. Keine Tickets. Keine Hand-offs.

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Häufig gestellte Fragen

Frequently asked questions

Was ist CWE-642?

This vulnerability occurs when an application stores security-sensitive state data in locations that unauthorized users can access and modify.

Wie gravierend ist CWE-642?

MITRE stuft die Exploit-Wahrscheinlichkeit als hoch ein — diese Schwachstelle wird aktiv in freier Wildbahn ausgenutzt und sollte priorisiert behoben werden.

Welche Sprachen oder Plattformen sind von CWE-642 betroffen?

MITRE lists the following affected platforms: Web Server.

Wie kann ich CWE-642 verhindern?

Understand all the potential locations that are accessible to attackers. For example, some programmers assume that cookies and hidden form fields cannot be modified by an attacker, or they may not consider that environment variables can be modified before a privileged program is invoked. Store state information and sensitive data on the server side only. Ensure that the system definitively and unambiguously keeps track of its own state and user state and has rules defined for legitimate state…

Wie erkennt und behebt Plexicus CWE-642?

Die SAST-Engine von Plexicus erkennt die Datenfluss-Signatur von CWE-642 bei jedem Commit. Bei einem Treffer öffnet unser Codex-Remedium-Agent einen Fix-PR mit korrigiertem Code, Tests und einer einzeiligen Zusammenfassung für den Reviewer.

Wo erfahre ich mehr über CWE-642?

MITRE veröffentlicht die kanonische Definition unter https://cwe.mitre.org/data/definitions/642.html. Für ergänzende Hinweise kannst du auch die OWASP- und NIST-Dokumentation heranziehen.

Verwandte Schwachstellen

Weaknesses related to CWE-642

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CWE-1189 Sibling

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CWE-1282 Sibling

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CWE-1327 Sibling

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CWE-1331 Sibling

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CWE-134 Sibling

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CWE-200 Sibling

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 Sibling

Passing Mutable Objects to an Untrusted Method

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CWE-375 Sibling

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