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CAPEC-79: Using Slashes in Alternate Encoding

Attack Pattern ID: 79
Abstraction: Detailed
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+ Description
This attack targets the encoding of the Slash characters. An adversary would try to exploit common filtering problems related to the use of the slashes characters to gain access to resources on the target host. Directory-driven systems, such as file systems and databases, typically use the slash character to indicate traversal between directories or other container components. For murky historical reasons, PCs (and, as a result, Microsoft OSs) choose to use a backslash, whereas the UNIX world typically makes use of the forward slash. The schizophrenic result is that many MS-based systems are required to understand both forms of the slash. This gives the adversary many opportunities to discover and abuse a number of common filtering problems. The goal of this pattern is to discover server software that only applies filters to one version, but not the other.
+ Likelihood Of Attack

High

+ Typical Severity

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
ChildOfStandard Attack PatternStandard Attack Pattern - A standard level attack pattern in CAPEC is focused on a specific methodology or technique used in an attack. It is often seen as a singular piece of a fully executed attack. A standard attack pattern is meant to provide sufficient details to understand the specific technique and how it attempts to accomplish a desired goal. A standard level attack pattern is a specific type of a more abstract meta level attack pattern.267Leverage Alternate Encoding
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, an automated tool or by inspecting the application, an adversary records all entry points to the application.

    Techniques
    Use a spidering tool to follow and record all links and analyze the web pages to find entry points. Make special note of any links that include parameters in the URL.
    Use a proxy tool to record all user input entry points 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.
    Manually inspect the application to find entry points.
Experiment
  1. Probe entry points to locate vulnerabilities: The adversary uses the entry points gathered in the "Explore" phase as a target list and looks for areas where user input is used to access resources on the target host. The adversary attempts different encodings of slash characters to bypass input filters.

    Techniques
    Try both backslash and forward slash characters
    Try different encodings for slash characters such as %5C
Exploit
  1. Traverse application directories: Once the adversary determines how to bypass filters that filter out slash characters, they will manipulate the user input to include slashes in order to traverse directories and access resources that are not intended for the user.

+ Prerequisites
The application server accepts paths to locate resources.
The application server does insufficient input data validation on the resource path requested by the user.
The access right to resources are not set properly.
+ Skills Required
[Level: Low]
An adversary can try variation of the slashes characters.
[Level: Medium]
An adversary can use more sophisticated tool or script to scan a website and find a path filtering problem.
+ Indicators
If the first path decoding process has left some invalid or denylisted characters, that may be a sign that the request is malicious.
Traffic filtering with IDS (or proxy) can detect request with suspicious URLs. IDS may use signature based identification to reveal such URL based attacks.
An adversary can use a fuzzer in order to probe for a UTF-8 encoding vulnerability. The fuzzer should generate suspicious network activity.
+ 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
Read Data
Confidentiality
Integrity
Availability
Execute Unauthorized Commands
Confidentiality
Access Control
Authorization
Gain Privileges
+ Mitigations
Any security checks should occur after the data has been decoded and validated as correct data format. Do not repeat decoding process, if bad character are left after decoding process, treat the data as suspicious, and fail the validation process. Refer to the RFCs to safely decode URL.
When client input is required from web-based forms, avoid using the "GET" method to submit data, as the method causes the form data to be appended to the URL and is easily manipulated. Instead, use the "POST method whenever possible.
There are tools to scan HTTP requests to the server for valid URL such as URLScan from Microsoft (http://www.microsoft.com/technet/security/tools/urlscan.mspx)
Be aware of the threat of alternative method of data encoding and obfuscation technique such as IP address encoding. (See related guideline section)
Test your path decoding process against malicious input.
In the case of path traversals, use the principle of least privilege when determining access rights to file systems. Do not allow users to access directories/files that they should not access.
Assume all input is malicious. Create an allowlist that defines all valid input to the application based on the requirements specifications. Input that does not match against the allowlist should not be permitted to enter into the system.
+ Example Instances
Attack Example: Slashes in Alternate Encodings

The two following requests are equivalent on most Web servers:

http://target server/some_directory\..\..\..\winnt

is equivalent to

http://target server/some_directory/../../../winnt

Multiple encoding conversion problems can also be leveraged as various slashes are instantiated in URL-encoded, UTF-8, or Unicode. Consider the strings

http://target server/some_directory\..%5C..%5C..\winnt

where %5C is equivalent to the \ character.

+ Taxonomy Mappings
Section HelpCAPEC mappings to ATT&CK techniques leverage an inheritance model to streamline and minimize direct CAPEC/ATT&CK mappings. Inheritance of a mapping is indicated by text stating that the parent CAPEC has relevant ATT&CK mappings. Note that the ATT&CK Enterprise Framework does not use an inheritance model as part of the mapping to CAPEC.
Relevant to the ATT&CK taxonomy mapping (see parent )
+ References
[REF-1] G. Hoglund and G. McGraw. "Exploiting Software: How to Break Code". Addison-Wesley. 2004-02.
[REF-525] Markus Kuhn. "UTF-8 and Unicode FAQ for Unix/Linux". 1999-06-04. <http://www.cl.cam.ac.uk/~mgk25/unicode.html>.
[REF-495] Gunter Ollmann. "URL Encoded Attacks - Attacks using the common web browser". CGISecurity.com. <http://www.cgisecurity.com/lib/URLEmbeddedAttacks.html>.
+ 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
2020-07-30
(Version 3.3)
CAPEC Content TeamThe MITRE Corporation
Updated Indicators, Mitigations
2021-06-24
(Version 3.5)
CAPEC Content TeamThe MITRE Corporation
Updated Related_Weaknesses
2022-02-22
(Version 3.7)
CAPEC Content TeamThe MITRE Corporation
Updated Description, Execution_Flow, Indicators, Skills_Required
2022-09-29
(Version 3.8)
CAPEC Content TeamThe MITRE Corporation
Updated Example_Instances
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Page Last Updated or Reviewed: July 31, 2018