CWE-912 Detail

CWE-912

Hidden Functionality
Incomplete
2013-02-21
00h00 +00:00
2025-12-11
00h00 +00:00
CWE Mitre.org
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Naam: Hidden Functionality

The product contains functionality that is not documented, not part of the specification, and not accessible through an interface or command sequence that is obvious to the product's users or administrators.

CWE-beschrijving

Hidden functionality can take many forms, such as intentionally malicious code, "Easter Eggs" that contain extraneous functionality such as games, developer-friendly shortcuts that reduce maintenance or support costs such as hard-coded accounts, etc. From a security perspective, even when the functionality is not intentionally malicious or damaging, it can increase the product's attack surface and expose additional weaknesses beyond what is already exposed by the intended functionality. Even if it is not easily accessible, the hidden functionality could be useful for attacks that modify the control flow of the application.

Algemene informatie

Introductiemodi

Architecture and Design
Implementation

Toepasselijke platforms

Taal

Class: Not Language-Specific (Undetermined)

Technologieën

Class: Not Technology-Specific (Undetermined)
Class: ICS/OT (Undetermined)

Veelvoorkomende gevolgen

Bereik Impact Waarschijnlijkheid
Other
Integrity		Varies by Context, Alter Execution Logic

Waargenomen voorbeelden

Referenties Beschrijving

CVE-2022-31260

Chain: a digital asset management program has an undisclosed backdoor in the legacy version of a PHP script (CWE-912) that could allow an unauthenticated user to export metadata (CWE-306)

CVE-2022-3203

A wireless access point manual specifies that the only method of configuration is via web interface (CWE-1059), but there is an undisclosed telnet server that was activated by default (CWE-912).

Mogelijke risicobeperkingen

Phases : Installation
Always verify the integrity of the product that is being installed.

Detectiemethoden

Automated Static Analysis

Conduct a code coverage analysis using live testing, then closely inspect any code that is not covered.

Notities kwetsbaarheidsmapping

Rechtvaardiging : This CWE entry is a Class and might have Base-level children that would be more appropriate
Opmerking : Examine children of this entry to see if there is a better fit

Gerelateerde aanvalspatronen

CAPEC-ID Naam aanvalspatroon
CAPEC-133 Try All Common Switches
An attacker attempts to invoke all common switches and options in the target application for the purpose of discovering weaknesses in the target. For example, in some applications, adding a --debug switch causes debugging information to be displayed, which can sometimes reveal sensitive processing or configuration information to an attacker. This attack differs from other forms of API abuse in that the attacker is indiscriminately attempting to invoke options in the hope that one of them will work rather than specifically targeting a known option. Nonetheless, even if the attacker is familiar with the published options of a targeted application this attack method may still be fruitful as it might discover unpublicized functionality.
CAPEC-190 Reverse Engineer an Executable to Expose Assumed Hidden Functionality
An attacker analyzes a binary file or executable for the purpose of discovering the structure, function, and possibly source-code of the file by using a variety of analysis techniques to effectively determine how the software functions and operates. This type of analysis is also referred to as Reverse Code Engineering, as techniques exist for extracting source code from an executable. Several techniques are often employed for this purpose, both black box and white box. The use of computer bus analyzers and packet sniffers allows the binary to be studied at a level of interactions with its computing environment, such as a host OS, inter-process communication, and/or network communication. This type of analysis falls into the 'black box' category because it involves behavioral analysis of the software without reference to source code, object code, or protocol specifications.

Indiening

Naam Organisatie Datum Releasedatum Version
CWE Content Team MITRE 2012-12-28 +00:00 2013-02-21 +00:00 2.4

Wijzigingen

Naam Organisatie Datum Opmerking
CWE Content Team MITRE 2017-11-08 +00:00 updated Relationships
CWE Content Team MITRE 2019-06-20 +00:00 updated Related_Attack_Patterns
CWE Content Team MITRE 2020-02-24 +00:00 updated Relationships
CWE Content Team MITRE 2022-04-28 +00:00 updated Relationships
CWE Content Team MITRE 2023-01-31 +00:00 updated Applicable_Platforms, Description, Potential_Mitigations
CWE Content Team MITRE 2023-04-27 +00:00 updated 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 2025-04-03 +00:00 updated Relationships
CWE Content Team MITRE 2025-12-11 +00:00 updated Applicable_Platforms, Demonstrative_Examples, Detection_Factors, Potential_Mitigations, Weakness_Ordinalities
De informatie die op CVE Find wordt gepresenteerd, is afkomstig van verschillende zorgvuldig geselecteerde referentiebronnen. CVE-gegevens worden geleverd door MITRE Corporation en de National Vulnerability Database (NVD). De Known Exploited Vulnerabilities (KEV)-catalogus is afkomstig van de Cybersecurity and Infrastructure Security Agency (CISA), terwijl EPSS-scores afkomstig zijn van FIRST.org. Daarnaast worden gegevens over softwarezwakheden (CWE) en veelvoorkomende aanvalspatronen (CAPEC) bijgehouden door MITRE Corporation, en informatie over hardware- en softwareconfiguraties (CPE) wordt geleverd door de NVD.