Difference between revisions of "Man-in-the-middle attack"

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[[Category:OWASP ASDR Project]]
 
[[Category:OWASP ASDR Project]]
[[ASDR Table of Contents]]__TOC__
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Last revision (mm/dd/yy): '''{{REVISIONMONTH}}/{{REVISIONDAY}}/{{REVISIONYEAR}}'''
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==Description==
 
==Description==
The man-in-the middle attack acts intercepting a communication between two systems, for example, in the http transaction the target is the TCP connection between client and server.
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The man-in-the middle attack intercepts a communication between two systems. For example, in an http transaction the target is the TCP connection between client and server.
Using different techniques the attacker splits the original TCP connection in 2 new connections, one between the client and  the attacker and the other between the attacker and the server, as shown in figure 1. Once  the TCP connection is intercepted, the attacker acts as a proxy, being able to read, insert and modify the data in the intercepted communication.  
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Using different techniques, the attacker splits the original TCP connection into 2 new connections, one between the client and  the attacker and the other between the attacker and the server, as shown in figure 1. Once  the TCP connection is intercepted, the attacker acts as a proxy, being able to read, insert and modify the data in the intercepted communication.  
  
 
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In the web context the MITM attack is very effective because of the nature of the http protocol and the data transfer which are  all ASCII based. This way, it’s possible to view and interview within the http protocol and  also in the data transferred. So, for example,  it’s possible to capture a session cookie reading the http header, but it’s also possible to change  an  amount of  money transaction inside the application context, as shown in figure 2.
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The MITM attack is very effective because of the nature of the http protocol and data transfer which are  all ASCII based. In this way, it’s possible to view and interview within the http protocol and  also in the data transferred. So, for example,  it’s possible to capture a session cookie reading the http header, but it’s also possible to change  an  amount of  money transaction inside the application context, as shown in figure 2.
  
 
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The MITM attack could also be done over https connection by using the same technique, the only difference consists in the establishment of two independent SSL sessions, one over each TCP connection. The browser sets  a SSL connection with attacker and the attacker establishes  another SSL connection with the web server. In general the browser warns  the user that the digital certificate used is not valid, but sometimes the user could ignore the warning because he doesn’t understand the threat.. In some specific contexts it’s possible that the warn doesn’t appear, as for example, when the Server certificate is compromised by the attacker or when the attacker certificate is signed by a trusted CA and the CN is the same of the original web site.
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The MITM attack could also be done over an https connection by using the same technique; the only difference consists in the establishment of two independent SSL sessions, one over each TCP connection. The browser sets  a SSL connection with the attacker, and the attacker establishes  another SSL connection with the web server. In general the browser warns  the user that the digital certificate used is not valid, but the user may ignore the warning because he doesn’t understand the threat. In some specific contexts it’s possible that the warning doesn’t appear, as for example, when the Server certificate is compromised by the attacker or when the attacker certificate is signed by a trusted CA and the CN is the same of the original web site.
  
The MITM it’s not only an attack technique but it’s also usually used during a development step of a web application or still used for Web Vulnerability assessments.
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MITM is not only an attack technique, but is also usually used during the development step of a web application or is still used for Web Vulnerability assessments.
  
 
===MITM Attack tools===
 
===MITM Attack tools===
There are several tools to realize MITM attack. These tools are particularly efficient in LAN networks environments because implements extra functionalities like the arp spoof capabilities that permits intercept the communication between hosts.
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There are several tools to realize a MITM attack. These tools are particularly efficient in LAN network environments, because they implement extra functionalities, like the arp spoof capabilities that permit the interception of communication between hosts.
  
 
* PacketCreator
 
* PacketCreator
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* Dsniff
 
* Dsniff
 
* Cain e Abel
 
* Cain e Abel
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[[Category:FIXME|could these all be links?]]
  
 
===MITM Proxy only tools===
 
===MITM Proxy only tools===
Proxy tools only permits interact with all the parts of the HTTP protocol like the header and the body of a transaction, but have not the capability to intercept the TCP connection between client and server. To intercept the communication it’s necessary to use other network attack tools or configure the browser  
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Proxy tools only permit interactiion with the parts of the HTTP protocol, like the header and the body of a transaction, but do not have the capability to intercept the TCP connection between client and server. To intercept the communication, it’s necessary to use other network attack tools or configure the browser.
  
* OWASP WebScarab
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* [[OWASP WebScarab]]
 
* Paros Proxy
 
* Paros Proxy
 
* Burp Proxy
 
* Burp Proxy
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* Odysseus Proxy
 
* Odysseus Proxy
 
* Fiddler (by Microsoft)
 
* Fiddler (by Microsoft)
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[[Category:FIXME|could these all be links?]]
  
 
==Examples==
 
==Examples==
 
TBD
 
TBD
[[Category:FIXME|need content here]]
 
 
== Risk Factors ==
 
===Severity===
 
High
 
 
===Likelihood of exploitation===
 
Medium
 
  
 
==Related [[Threat Agents]]==
 
==Related [[Threat Agents]]==
[[:Category:Authentication]]
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* [[:Category:Authentication]]
 
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* [[:Category:Client-side Attacks]]
[[:Category:Client-side Attacks]]
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[[Category:FIXME|these aren't threat agents]]
  
 
==Related [[Attacks]]==
 
==Related [[Attacks]]==
[[Man-in-the-browser_attack]]
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* [[Man-in-the-browser_attack]]
 
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==Related Vulnerabilities==
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[[:Category:Session Management Vulnerability]]
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==Related Countermeasures==
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==Related [[Vulnerabilities]]==
*[[Session Management]]
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* [[:Category:Session Management Vulnerability]]
  
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==Related [[Controls]]==
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* [[Session Management]]
  
 
==References==
 
==References==
*http://www.sans.org/reading_room/whitepapers/threats/480.php
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* http://www.sans.org/reading_room/whitepapers/threats/480.php
 
* http://cwe.mitre.org/data/definitions/300.html
 
* http://cwe.mitre.org/data/definitions/300.html
*http://en.wikipedia.org/wiki/Mitm
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* http://en.wikipedia.org/wiki/Man-in-the-middle_attack
  
 
[[Category:Spoofing]]
 
[[Category:Spoofing]]
 
[[Category:Attack]]
 
[[Category:Attack]]

Latest revision as of 06:44, 23 April 2009

This is an Attack. To view all attacks, please see the Attack Category page.




Last revision (mm/dd/yy): 04/23/2009


Description

The man-in-the middle attack intercepts a communication between two systems. For example, in an http transaction the target is the TCP connection between client and server. Using different techniques, the attacker splits the original TCP connection into 2 new connections, one between the client and the attacker and the other between the attacker and the server, as shown in figure 1. Once the TCP connection is intercepted, the attacker acts as a proxy, being able to read, insert and modify the data in the intercepted communication.

Main the middle.JPG

Figure 1. Illustration of man-in-the-middle attack

The MITM attack is very effective because of the nature of the http protocol and data transfer which are all ASCII based. In this way, it’s possible to view and interview within the http protocol and also in the data transferred. So, for example, it’s possible to capture a session cookie reading the http header, but it’s also possible to change an amount of money transaction inside the application context, as shown in figure 2.

Request.JPG

Figure 2. Illustration of a HTTP Packet intercepted with Paros Proxy.

The MITM attack could also be done over an https connection by using the same technique; the only difference consists in the establishment of two independent SSL sessions, one over each TCP connection. The browser sets a SSL connection with the attacker, and the attacker establishes another SSL connection with the web server. In general the browser warns the user that the digital certificate used is not valid, but the user may ignore the warning because he doesn’t understand the threat. In some specific contexts it’s possible that the warning doesn’t appear, as for example, when the Server certificate is compromised by the attacker or when the attacker certificate is signed by a trusted CA and the CN is the same of the original web site.

MITM is not only an attack technique, but is also usually used during the development step of a web application or is still used for Web Vulnerability assessments.

MITM Attack tools

There are several tools to realize a MITM attack. These tools are particularly efficient in LAN network environments, because they implement extra functionalities, like the arp spoof capabilities that permit the interception of communication between hosts.

  • PacketCreator
  • Ettercap
  • Dsniff
  • Cain e Abel

MITM Proxy only tools

Proxy tools only permit interactiion with the parts of the HTTP protocol, like the header and the body of a transaction, but do not have the capability to intercept the TCP connection between client and server. To intercept the communication, it’s necessary to use other network attack tools or configure the browser.

  • OWASP WebScarab
  • Paros Proxy
  • Burp Proxy
  • ProxyFuzz
  • Odysseus Proxy
  • Fiddler (by Microsoft)

Examples

TBD

Related Threat Agents

Related Attacks

Related Vulnerabilities

Related Controls

References