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Protection and Communication Abstractions for Web Browsers in MashupOS Helen J. Wang, Xiaofeng Fan, Jon Howell (MSR) Collin Jackson (Stanford) February,

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Presentation on theme: "Protection and Communication Abstractions for Web Browsers in MashupOS Helen J. Wang, Xiaofeng Fan, Jon Howell (MSR) Collin Jackson (Stanford) February,"— Presentation transcript:

1 Protection and Communication Abstractions for Web Browsers in MashupOS Helen J. Wang, Xiaofeng Fan, Jon Howell (MSR) Collin Jackson (Stanford) February, 2008 1

2 2

3 3 … but most of all, Samy is my hero

4 4

5 Outline The problem The MashupOS project Protection Communication Implementation and demo Evaluation Related work Conclusions 5

6 Client Mashups Web content has evolved from single-principal services to multi-principal services, rivaling that of desktop PCs. Principal is domain 6

7 Browsers Remain Single-Principal Systems The Same Origin Policy (SOP), an all-or- nothing trust model: –No cross-domain interactions allowed –(External) scripts run with the privilege of the enclosing page 7 http://integrator.com/ <iframe src=“http://provider.com/p.html”> http://integrator.com/ <script src=“http://provider.com/p.js”> X

8 Insufficiency of the SOP Sacrifice security for functionality when including an external script without fully trusting it E.g., iGoogle, Live gadget aggregators’ inline gadget 8

9 Insufficiency of the SOP, Cont. Third-party content sanitization is hard –Cross site scripting (XSS): Unchecked user input in a generated page E.g., Samy worm: infected 1 million MySpace.com users in 20 hours Root cause: –The injected scripts run with the page’s privilege 9 Samy is my hero

10 Insufficiency of the SOP, Cont. Sacrifice functionality for security when denying scripts in third-party content E.g., MySpace.com disallows scripts in user profiles 10

11 The MashupOS Project Enable browser to be a multi-principal OS Focus of this paper: protection and communication abstractions Protection: –Provide default isolation boundaries Communications: –Allow service-specific, fine-grained access control across isolation boundaries 11

12 Design Principles Match all common trust levels to balance ease-of-use and security –Goal: enable programmers to build robust services –Non-goal: make it impossible for programmers to shoot themselves in the foot Easy adoption and no unintended behaviors 12

13 Outline The problem The MashupOS project Protection Communication Implementation and demo Evaluation Related work Conclusions 13

14 A Principal’s Resources Memory: –heap of script objects including DOM objects that control the display Persistent state: –cookies, etc. Remote data access: –XMLHttpRequest 14

15 Trust Relationship between Providers and Integrators i.com Content Semantics AbstractionRun- as 15 p.comi.com Internet http://i.com/ HTML XHR X X No Isolated p.com <iframe src=“http://p.com/c.html”> X

16 Trust Relationship between Providers and Integrators i.com Content Semantics AbstractionRun- as 16 p.comi.com Internet http://i.com/ Script XHR No Isolated p.com Yes Open i.com <script src=“http://p.com/c.js”>

17 Trust Relationship between Providers and Integrators i.com Content Semantics AbstractionRun- as 17 p.comi.com Internet http://i.com/ No Isolated p.com Yes Open i.com NoYes X

18 Trust Relationship between Providers and Integrators 18 p.comi.com Internet http://i.com/ X X XHR None YesNo Unauthorized Unauth X XHR i.com Content Semantics AbstractionRun- as No Isolated p.com Yes Open i.com NoYes Unauthorized content is not authorized to access any principal’s resources. <sandbox src=“http://p.com/c.html”>

19 Properties of Sandbox Asymmetric access –Access: reading/writing script global objects, function invocations, modifying/creating DOM elements inside the sandbox Invoking a sandbox’s function is done in the context of the sandbox –setuid (“unauthorized”) before invocation and setuid (“enclosingPagePrincipal) upon exit The enclosing page cannot pass non-sandbox object references into the sandbox. –Programmers can put needed objects inside the sandbox Private vs. Open sandboxes 19

20 Private Sandbox Content if tag not supported Belongs to a domain and can only be accessed by that domain –E.g., private location history marked on a map Private sandboxes cannot access one another even when nested –Otherwise, a malicious script can nest another private sandbox and access its private content 20

21 Open Sandbox Content if tag not supported Can be accessed by any domain Can access its descendant open sandboxes --- important for third party service composition –E.g., e-mail containing a map; don’t want an e-mail to tamper hotmail.com; don’t want the map library to tamper the e-mail 21

22 Provider-Browser Protocol for Unauthorized Content Unauthorized content must be sandboxed and must not be renderable by frames –Otherwise, unauthorized content would run as the principal of the frame MIME protocol seems to be what we want: –Require providers to prefix unauthorized content subtype with x-privateUnauthorized+ or x-openUnauthorized+ –E.g., text/html  text/x-privateUnauthorized+html –Verified that Firefox cannot render these content types with and –But, IE’s MIME sniffing allows rendering sometimes Alternative: encraption (e.g., Base64 encoding) Prevent providers from unintentionally publishing unauthorized content as other types of content: –Constrain sandbox to take only unauthorized content 22

23 Key Benefits of Sandbox Safe mashups with ease Beneficial to host third-party content as unauthorized content 23

24 Sandbox for Safe Mashups with Ease 24 http://Mashup.com/index.htm // local script to Mashup.com // calling functions in a.js and b.js … X X

25 Hosting Third-Party Content as Unauthorized Content Combats cross site scripting attacks in a fundamental way –Put user input into a sandbox –Does not have to sacrifice functionality Helps with Web spam –Discount the score of hyperlinks in third party content 25

26 Outline The problem The MashupOS project Protection Communication Implementation & demo Evaluation Related work Conclusions 26

27 Communications Message passing across the isolation boundaries enable custom, fine-grained access control 27 Isolated a.comb.com CommRequest Unauthorized CommRequest

28 Server: server = new CommServer(); server.listenTo(“aPort”, requestHandlerFunction); Client: req = new CommRequest(); req.open (“INVOKE”, “local:http://bob.com//aPort”, isSynchronous); req.send (requestData); req.onreadystatechange = function () { …} 28

29 CommRequest vs. XMLHttpRequest Cross domain Source labeled No cookies sent “Server” can be on client Reply from remote server tagged with special MIME type Syntax similar to socket API and XHR 29

30 Outline The problem The MashupOS project Protection Communication Implementation & demo Evaluation Related work Conclusions 30

31 Implementation Use frames as our building blocks, but we apply our access control 31 Script Engine MashupOS Script Engine Proxy MashupOS MIME Filter Script execution DOM object access DOM object update Original HTML MashupOS transformed HTML HTML Layout Engine

32 Evaluation: Showcase Application PhotoLoc, a photo location service –Mash up Google’s map service and Flickr’s geo-tagged photo gallery service –Map out the locations of photographs taken PhotoLoc doesn’t trust flickr nor gmap 32

33 PhotoLoc/index.htm function setPhotoLoc(request) { var coordinate = request.body; var latitude = getLatitude (coordinate); var longitude = getLongitude (coordinate); G.map.setCenter(new GLatLng(latitude, longitude), 6); } var svr = new CommServer(); svr.listenTo(“recvLocationPort”, setPhotoLoc); 33 Direct access CommRequest

34 Demo 34

35 Evaluation: Prototype Performance Microbenchmarking for script engine proxy –Negligible overhead for no or moderate DOM manipulations –33%--82% overhead with heavy DOM manipulations Macrobenchmark measures overall page- loading time using top 500 pages from the top click-through search results of MSN search from 2005 –shows no impact Anticipate in-browser implementation to have low overhead 35

36 Outline The problem The MashupOS project Protection Communication Implementation & demo Evaluation Related work Conclusions 36

37 Related work Crockford’s –Symmetric isolation with socket-like communication with the enclosing page Wahbe et al’s Software Fault Isolation –Asymmetric access though never leveraged –Primary goal was to avoid context switches for untrusted code in a process Cox et al’s Tahoma browser operating system uses VM to –Protect the host system from browser and web services –Protect web applications (a set of web sites) from one another 37

38 Future Work Robust implementation of the protection model Tools to detect whether a browser extension violates the browser’s protection model Tools for ensuring proper segregation of different content types Resource management, OS facilities 38

39 Conclusions Web content involves multiple principals Browsers remain a single principal platform The missing protection abstraction: Unauthorized content and –Enable safe mashups with ease –Combats cross-site scripting in a fundamental way CommRequest allows fine-grained access control across isolation boundaries Practical for deployment 39

40 Thank you! 40

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