CAPEC - CAPEC-23: File Content Injection (Version 3.9)


CAPEC Common Attack Pattern Enumeration and Classification A Community Resource for Identifying and Understanding Attacks	New to CAPEC? Start Here

Home > CAPEC List > CAPEC-23: File Content Injection (Version 3.9)

CAPEC-23: File Content Injection

Attack Pattern ID: 23

Abstraction: Standard

View customized information:

Description

An adversary poisons files with a malicious payload (targeting the file systems accessible by the target software), which may be passed through by standard channels such as via email, and standard web content like PDF and multimedia files. The adversary exploits known vulnerabilities or handling routines in the target processes, in order to exploit the host's trust in executing remote content, including binary files.

Extended Description

Vulnerabilities of this type have been found in a wide variety of commercial applications from Microsoft Office to Adobe Acrobat and Apple Safari web browser. When the adversary knows the standard handling routines and can identify vulnerabilities and entry points, they can be exploited by otherwise seemingly normal content. Once the attack is executed, the adversary's program can access relative directories such as C:\Program Files or other standard system directories to launch further attacks. In a worst case scenario, these programs are combined with other propagation logic and work as a virus.

Likelihood Of Attack

High

Typical Severity

Very High

Relationships

Section HelpThis table shows the other attack patterns and high level categories that are related to this attack pattern. These relationships are defined as ChildOf and ParentOf, and give insight to similar items that may exist at higher and lower levels of abstraction. In addition, relationships such as CanFollow, PeerOf, and CanAlsoBe are defined to show similar attack patterns that the user may want to explore.

Nature	Type	ID	Name
ChildOf	Meta Attack PatternMeta Attack Pattern - A meta level attack pattern in CAPEC is a decidedly abstract characterization of a specific methodology or technique used in an attack. A meta attack pattern is often void of a specific technology or implementation and is meant to provide an understanding of a high level approach. A meta level attack pattern is a generalization of related group of standard level attack patterns. Meta level attack patterns are particularly useful for architecture and design level threat modeling exercises.	242	Code Injection
ParentOf	Detailed Attack PatternDetailed Attack Pattern - A detailed level attack pattern in CAPEC provides a low level of detail, typically leveraging a specific technique and targeting a specific technology, and expresses a complete execution flow. Detailed attack patterns are more specific than meta attack patterns and standard attack patterns and often require a specific protection mechanism to mitigate actual attacks. A detailed level attack pattern often will leverage a number of different standard level attack patterns chained together to accomplish a goal.	44	Overflow Binary Resource File
PeerOf	Detailed Attack PatternDetailed Attack Pattern - A detailed level attack pattern in CAPEC provides a low level of detail, typically leveraging a specific technique and targeting a specific technology, and expresses a complete execution flow. Detailed attack patterns are more specific than meta attack patterns and standard attack patterns and often require a specific protection mechanism to mitigate actual attacks. A detailed level attack pattern often will leverage a number of different standard level attack patterns chained together to accomplish a goal.	35	Leverage Executable Code in Non-Executable Files
CanAlsoBe	Meta Attack PatternMeta Attack Pattern - A meta level attack pattern in CAPEC is a decidedly abstract characterization of a specific methodology or technique used in an attack. A meta attack pattern is often void of a specific technology or implementation and is meant to provide an understanding of a high level approach. A meta level attack pattern is a generalization of related group of standard level attack patterns. Meta level attack patterns are particularly useful for architecture and design level threat modeling exercises.	165	File Manipulation

Section HelpThis table shows the views that this attack pattern belongs to and top level categories within that view.

View Name	Top Level Categories
Domains of Attack	Software
Mechanisms of Attack	Inject Unexpected Items

Prerequisites

The target software must consume files.

The adversary must have access to modify files that the target software will consume.

Skills Required

[Level: Medium]

How to poison a file with malicious payload that will exploit a vulnerability when the file is opened. The adversary must also know how to place the file onto a system where it will be opened by an unsuspecting party, or force the file to be opened.

Consequences

Section HelpThis table specifies different individual consequences associated with the attack pattern. The Scope identifies the security property that is violated, while the Impact describes the negative technical impact that arises if an adversary succeeds in their attack. The Likelihood provides information about how likely the specific consequence is expected to be seen relative to the other consequences in the list. For example, there may be high likelihood that a pattern will be used to achieve a certain impact, but a low likelihood that it will be exploited to achieve a different impact.

Scope	Impact	Likelihood
Confidentiality Integrity Availability	Execute Unauthorized Commands

Mitigations

Design: Enforce principle of least privilege

Design: Validate all input for content including files. Ensure that if files and remote content must be accepted that once accepted, they are placed in a sandbox type location so that lower assurance clients cannot write up to higher assurance processes (like Web server processes for example)

Design: Execute programs with constrained privileges, so parent process does not open up further vulnerabilities. Ensure that all directories, temporary directories and files, and memory are executing with limited privileges to protect against remote execution.

Design: Proxy communication to host, so that communications are terminated at the proxy, sanitizing the requests before forwarding to server host.

Implementation: Virus scanning on host

Implementation: Host integrity monitoring for critical files, directories, and processes. The goal of host integrity monitoring is to be aware when a security issue has occurred so that incident response and other forensic activities can begin.

Example Instances

PHP is a very popular language used for developing web applications. When PHP is used with global variables, a vulnerability may be opened that affects the file system. A standard HTML form that allows for remote users to upload files, may also place those files in a public directory where the adversary can directly access and execute them through a browser. This vulnerability allows remote adversaries to execute arbitrary code on the system, and can result in the adversary being able to erase intrusion evidence from system and application logs.

Related Weaknesses

Section HelpA Related Weakness relationship associates a weakness with this attack pattern. Each association implies a weakness that must exist for a given attack to be successful. If multiple weaknesses are associated with the attack pattern, then any of the weaknesses (but not necessarily all) may be present for the attack to be successful. Each related weakness is identified by a CWE identifier.

CWE-ID	Weakness Name
20	Improper Input Validation

References

[REF-1] G. Hoglund and G. McGraw. "Exploiting Software: How to Break Code". Addison-Wesley. 2004-02.

Content History

Submissions
Submission Date	Submitter	Organization
2014年06月23日 (Version 2.6)	CAPEC Content Team	The MITRE Corporation
2014年06月23日 (Version 2.6)
Modifications
Modification Date	Modifier	Organization
2015年12月07日 (Version 2.8)	CAPEC Content Team	The MITRE Corporation
2015年12月07日 (Version 2.8)	Updated Related_Attack_Patterns
2017年08月04日 (Version 2.11)	CAPEC Content Team	The MITRE Corporation
2017年08月04日 (Version 2.11)	Updated Attack_Prerequisites, Description Summary, Examples-Instances, Payload_Activation_Impact
2018年07月31日 (Version 2.12)	CAPEC Content Team	The MITRE Corporation
2018年07月31日 (Version 2.12)	Updated Attacker_Skills_or_Knowledge_Required
2019年04月04日 (Version 3.1)	CAPEC Content Team	The MITRE Corporation
2019年04月04日 (Version 3.1)	Updated Related_Weaknesses
2020年07月30日 (Version 3.3)	CAPEC Content Team	The MITRE Corporation
2020年07月30日 (Version 3.3)	Updated Example_Instances
2020年12月17日 (Version 3.4)	CAPEC Content Team	The MITRE Corporation
2020年12月17日 (Version 3.4)	Updated Example_Instances, References
2022年02月22日 (Version 3.7)	CAPEC Content Team	The MITRE Corporation
2022年02月22日 (Version 3.7)	Updated Description, Extended_Description
Previous Entry Names
Change Date	Previous Entry Name
2015年12月07日 (Version 2.8)	File System Function Injection, Content Based

More information is available — Please select a different filter.

Page Last Updated or Reviewed: July 31, 2018


MITRE	Site Map \| Terms of Use \| Manage Cookies \| Cookie Notice \| Privacy Policy \| Contact Us \| CAPEC on Twitter CAPEC on LinkedIn CAPEC on YouTube CAPEC Out-of-Bounds-Read Podcast CAPEC Blog on Medium Use of the Common Attack Pattern Enumeration and Classification (CAPEC), and the associated references from this website are subject to the Terms of Use. Copyright © 2007–2025, The MITRE Corporation. CAPEC and the CAPEC logo are trademarks of The MITRE Corporation.	HSSEDI

Common Attack Pattern Enumeration and Classification

CAPEC-23: File Content Injection