Here at F5, we have posted an implementation to Amit's algorithm using our inline iRules scripting language. You can download it at: http://devcentral.f5.com/Default.aspx?tabid=29&articleType=ArticleView&a rticleId=70 Thanks, Tom. Tom Spector CISSP F5 Networks. -----Original Message----- From: Amit Klein [mailto:aksecurity@xxxxxxxxx] Sent: Thursday, January 04, 2007 2:38 PM To: bugtraq@xxxxxxxxxxxxxxxxx; Web Security Subject: Re: [WEB SECURITY] Universal XSS with PDF files: highly dangerous Updates: 1. In private communication, Tom Spector observed that the cookie doesn't add any significant security. In retrospect, I could have omitted it completely. It's there as a remnant of a previous idea I had. In other words, I see nothing wrong with the following, simpler and more elegant algorithm ("Look ma - no cookie"): IF the URL doesn't contain token_query, then: calculate X=encrypt_with_key(server_time, client_IP_address) redirect to file.pdf?token_query=X ELSE IF the URL contains token_query, and decrypt(token_query).IP_address==client_IP_address and decrypt(token_query).time>server_time-10sec serve the PDF resource as an in-line resource ELSE serve the PDF resource as a "save to disk" resource via a proper choice of the Content-Type header (and/or an attachment, via Content-Disposition). And big thanks to Tom who pointed this out. 2. While thinking more about this solution, I observed that if the attacker can have an "agent" sharing the same IP address with the victim (by agent I mean an entity that can communicate with the target web site and read back its response data), then the algorithms I suggested will not be effective. Note that an attacker can share IP address with the victim when both share a forward proxy (e.g. some universities and ISPs), or when the attacker and victim share the same machine (multi-user environment). Still, that narrows down the attack surface significantly. Thanks, -Amit Amit Klein wrote: > It seems that I forgot all about Flash when I wrote that (the > irony...). The solution I proposed is not secure enough as-is. It is > trivial to write a SWF object that will request > file.pdf?token_query=123 and add a "Cookie: token_cookie=123". This is > discussed in yours truly's "Forging HTTP request headers with Flash" ( > http://www.securityfocus.com/archive/1/441014) and in Rapid7's "Rapid7 > Advisory R7-0026 - HTTP Header Injection Vulnerabilities in the Flash > Player Plugin" ( http://www.rapid7.com/advisories/R7-0026.jsp). > Even adding cryptographic secret, time-based entropy or use counter > doesn't help - all this can be circumvented by a server script on the > attacker's site preparing the HTTP request and communicating it in > real-time to the SWF object at the victim's browser. > > The solution I could come up with is to tie X to the IP address of the > client. Yes, I know - it's ugly, and it doesn't work 100% of the > cases. But you stand nothing to lose if you simply fall back to the > "save to disk" option, suggested by an anonymous SlashDot submitter ( > http://it.slashdot.org/comments.pl?sid=214868&threshold=1&commentsort=0&; mode=thread&cid=17450834 > <http://it.slashdot.org/comments.pl?sid=214868&threshold=1&commentsort=0 &mode=thread&cid=17450834>). > > So the more secure solution, as I see it, is as following: > > Apply only for PDF resources: > > IF the URL doesn't contain token_query, then: > calculate X=encrypt_with_key(server_time, client_IP_address) > redirect to file.pdf?token_query=X with Set-Cookie: token_cookie=X > to expire at server_time+10sec. > > ELSE IF the URL contains token_query, and token_query==token_cookie > and decrypt(token_query).IP_address==client_IP_address and > decrypt(token_query).time>server_time-10sec > serve the PDF resource as an in-line resource > > ELSE > serve the PDF resource as a "save to disk" resource via a proper > choice of the Content-Type header (and/or an attachment, via > Content-Disposition). > > Hopefully this should work. But it's definitely less elegant than the > original (flawed) suggestion. > > -Amit > ------------------------------------------------------------------------ ---- The Web Security Mailing List: http://www.webappsec.org/lists/websecurity/ The Web Security Mailing List Archives: http://www.webappsec.org/lists/websecurity/archive/ http://www.webappsec.org/rss/websecurity.rss [RSS Feed]
