CAPEC - CAPEC-18: XSS Targeting Non-Script Elements (Version 3.9)
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CAPEC-18: XSS Targeting Non-Script Elements

Attack Pattern ID: 18
Abstraction: Detailed
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+ Description
This attack is a form of Cross-Site Scripting (XSS) where malicious scripts are embedded in elements that are not expected to host scripts such as image tags (<img>), comments in XML documents (< !-CDATA->), etc. These tags may not be subject to the same input validation, output validation, and other content filtering and checking routines, so this can create an opportunity for an adversary to tunnel through the application's elements and launch a XSS attack through other elements. As with all remote attacks, it is important to differentiate the ability to launch an attack (such as probing an internal network for unpatched servers) and the ability of the remote adversary to collect and interpret the output of said attack.
+ 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.
NatureTypeIDName
ChildOfDetailed 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.588DOM-Based XSS
ChildOfDetailed 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.591Reflected XSS
ChildOfDetailed 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.592Stored XSS
Section HelpThis table shows the views that this attack pattern belongs to and top level categories within that view.
+ Execution Flow
Explore
  1. Survey the application for user-controllable inputs: Using a browser or an automated tool, an adversary records all entry points for inputs that happen to be reflected in a client-side non-script element. These non-script elements can be located in the HTML content (head, body, comments), in an HTML tag, XML, CSS, etc.

    Techniques
    Use a spidering tool to follow and record all non-static links that are likely to have input parameters (through forms, URL, fragments, etc.) actively used by the Web application.
    Use a proxy tool to record all links visited during a manual traversal of the web application.
    Use a browser to manually explore the website and analyze how it is constructed. Many browsers' plugins are available to facilitate the analysis or automate the discovery.
Experiment
  1. Probe identified potential entry points for XSS vulnerability: The adversary uses the entry points gathered in the "Explore" phase as a target list and injects various common script payloads to determine if an entry point actually represents a vulnerability and to characterize the extent to which the vulnerability can be exploited.

    Techniques
    Manually inject various script payloads into each identified entry point using a list of common script injection probes that typically work in a client-side non-script elements context and observe system behavior to determine if script was executed. Since these probes may have to be injected in many different types of non-script elements, they should cover a variety of possible contexts (CSS, HTML tag, XML, etc.).
    Use an automated injection attack tool to inject various script payloads into each identified entry point using a list of common script injection probes that typically work in a client-side non-script elements context and observe system behavior to determine if script was executed. Since these probes may have to be injected in many different types of non-script elements, they should cover a variety of possible contexts (CSS, HTML tag, XML, etc.).
    Use a proxy tool to record results of the created requests.
  2. Create malicious XSS content: Once the adversary has determined which entry points are vulnerable to XSS, they will interact with the web application to store the malicious content. Because of the nature of this attack, it is mostly carried out through stored XSS, although it is possible to perform this attack using reflected XSS. The adversary can have many goals, from stealing session IDs, cookies, credentials, and page content from a victim.

    Techniques
    Store a malicious script on a page, disguised as a non-script element, that will execute when viewed by the victim.
    Use a tool such as BeEF to store a hook into the web application. This will alert the adversary when the victim has accessed the content and will give the adversary control over the victim's browser, allowing them access to cookies, user screenshot, user clipboard, and more complex XSS attacks.
Exploit
  1. Get victim to view stored content: In order for the attack to be successful, the victim needs to view the stored malicious content on the webpage.

    Techniques
    Send a phishing email to the victim containing a URL that will direct them to the malicious stored content.
    Simply wait for a victim to view the content. This is viable in situations where content is posted to a popular public forum.
+ Prerequisites
The target client software must allow the execution of scripts generated by remote hosts.
+ Skills Required
[Level: Low]
To achieve a redirection and use of less trusted source, an adversary can simply edit content such as XML payload or HTML files that are sent to client machine.
[Level: High]
Exploiting a client side vulnerability to inject malicious scripts into the browser's executable process.
+ Resources Required
Ability to include malicious script in document, e.g. HTML file, or XML document. Ability to deploy a custom hostile service for access by targeted clients. Ability to communicate synchronously or asynchronously with client machine
+ 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.
ScopeImpactLikelihood
Confidentiality
Integrity
Availability
Execute Unauthorized Commands
Confidentiality
Read Data
+ Mitigations
In addition to the traditional input fields, all other user controllable inputs, such as image tags within messages or the likes, must also be subjected to input validation. Such validation should ensure that content that can be potentially interpreted as script by the browser is appropriately filtered.
All output displayed to clients must be properly escaped. Escaping ensures that the browser interprets special scripting characters literally and not as script to be executed.
+ Example Instances

An online discussion forum allows its members to post HTML-enabled messages, which can also include image tags. A malicious user embeds JavaScript in the IMG tags in their messages that gets executed within the victim's browser whenever the victim reads these messages.

<img src=javascript:alert('XSS')>

When executed within the victim's browser, the malicious script could accomplish a number of adversary objectives including stealing sensitive information such as usernames, passwords, or cookies.

+ References
[REF-1] G. Hoglund and G. McGraw. "Exploiting Software: How to Break Code". Addison-Wesley. 2004-02.
+ Content History
Submissions
Submission DateSubmitterOrganization
2014-06-23
(Version 2.6)
CAPEC Content TeamThe MITRE Corporation
Modifications
Modification DateModifierOrganization
2017-01-09
(Version 2.9)
CAPEC Content TeamThe MITRE Corporation
Updated Related_Attack_Patterns
2017-05-01
(Version 2.10)
CAPEC Content TeamThe MITRE Corporation
Updated Attack_Prerequisites, Attacker_Skills_or_Knowledge_Required, Examples-Instances, Related_Attack_Patterns, Related_Vulnerabilities, Related_Weaknesses, Solutions_and_Mitigations, Typical_Likelihood_of_Exploit
2020-07-30
(Version 3.3)
CAPEC Content TeamThe MITRE Corporation
Updated Example_Instances, Execution_Flow
2022-02-22
(Version 3.7)
CAPEC Content TeamThe MITRE Corporation
Updated Description, Execution_Flow
2022-09-29
(Version 3.8)
CAPEC Content TeamThe MITRE Corporation
Updated Example_Instances
Previous Entry Names
Change DatePrevious Entry Name
2017-05-01
(Version 2.10)
Embedding Scripts in Non-Script Elements
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Page Last Updated or Reviewed: July 31, 2018