mobile device security - computer science...
TRANSCRIPT
Mobile Device Security - Reading Material
Adam C. Champion and Dong Xuan CSE 4471: Information Security
Based on materials from Tom Eston (SecureState), Apple, Android Open Source Project, and William Enck (NCSU)
Organization
• Quick Overview of Mobile Devices • iOS/Android Threats and Attacks • iOS/Android Security
Overview of Mobile Devices • Mobile computers:
– Mainly smartphones, tablets – Sensors: GPS, camera,
accelerometer, etc. – Computation: powerful
CPUs (≥ 1 GHz, multi-core) – Communication: cellular/4G,
Wi-Fi, near field communication (NFC), etc.
• Many connect to cellular networks: billing system
• Cisco: 7 billion mobile devices will have been sold by 2012 [1]
Organization
Organization
• Quick Overview of Mobile Devices • iOS/Android Threats and Attacks • iOS/Android Security
iOS/Android Malware
• iOS malware: very little • Juniper Networks: Major increase in Android
malware from 2010 to 2011 [18] • Android malware growth keeps increasing ($$$) • Main categories: [19] – Trojans – Monitoring apps/spyware – Adware – Botnets
• We’ll look at notable malware examples
iOS Malware
• Malware, “fake apps” have hit iOS too – iKee, first iPhone virus, “rickrolled” jailbroken
iDevices [25] – Example “fake/similar” apps:
• Temple Run: Temple Climb, Temple Rush, Cave Run • Angry Birds: Angry Zombie Birds, Shoot Angry Birds • Not to mention “walkthroughs,” “reference” apps, etc. • Google Play banned such apps…
– iOS, Android hit with “Find and Call” app • SMS spammed contacts from central server • Removed from App Store, Google Play
Android: DroidDream Malware • Infected 58 apps on Android
Market, March 2011 • 260,000 downloads in 4 days • How it worked:
– Rooted phone via Android Debug Bridge (adb) vulnerability
– Sent premium-rate SMS messages at night ($$$)
• Google removed apps 4 days after release, banned 3 developers from Market
• More malware found since
Android: Fake Angry Birds Space
• Bot, Trojan • Masquerades as game • Roots Android 2.3
devices using “Gingerbreak” exploit
• Device joins botnet
• Disguised as a Trojan horse• Uses the “GingerBreak”
exploit to root the device• Your device becomes part
of a botnet
17
Angry Birds from Unofficial App Stores
http://nakedsecurity.sophos.com/2012/04/12/android-malware-angry-birds-space-game/
Source: [20]
Android: SMS Worm
• Students in previous information security classes wrote SMS worms, loggers on Android • Worm spreads to all contacts via social engineering,
sideloading, etc. • Logger stored/forwarded all received SMS messages
– Only needed SEND_SMS, RECEIVE_SMS, READ_SMS permissions
– Can send 100 SMS messages/hour – One group put SMS logger on Google Play (removed it)
Android: Google Wallet Vulnerabilities (1)
• Google Wallet enables smartphone payments – Uses NFC technology – Many new mobile devices
have NFC • Some credit card info
stored securely in secure element – Separate chip, SD card,
SIM card • Unfortunately, other data
are not stored as securely
Android: Google Wallet Vulnerabilities (2)
• Some information can be recovered from databases on phone: [21] – Name on credit card – Expiration date – Recent transactions – etc.
• Google Analytics tracking can reveal customer behavior from non-SSL HTTP GET requests
• NFC alone does not guarantee security – Radio eavesdropping, data modification possible [22] – Relay attacks, spoofing possible with libnfc [23]
Android: Sophisticated NFC Hack
• Charlie Miller’s Black Hat 2012 presentation: Nokia, Android phones can be hijacked via NFC [24] – NFC/Android Beam on by default on Android 2.3+,
Android 4.0+ – Place phone 3–4 cm away from NFC tag, other NFC-
enabled phone – Attacker-controlled phone sends data to tag/device, can
crash NFC daemon, Android OS – For Android 4.0–4.0.1, can remotely open device browser
to attacker-controlled webpage
Organization
• Quick Overview of Mobile Devices • iOS/Android Threats and Attacks • iOS/Android Security
iOS System Architecture (1)
• Boot sequence: – Bootloader, kernel,
extensions, baseband firmware all have cryptographic signatures
– Root of trust: burnt into boot ROM at the factory
– Each component’s signature is verified
– If any signature doesn’t match, the “connect to iTunes” screen is shown Icons from Double-J Design, IconBlock
iOS System Architecture (2)
• Software updates – Cannot install older version of iOS on an iDevice;
e.g., if device runs iOS 5.1.1, cannot install iOS 4 – Device cryptographically “measures” components,
sends to Apple install server with nonce, device ID • Nonce: value used only once • Prevents attacker from “replaying” the value
– Server checks measurements; if allowed, server adds device ID to measurements, signs everything
iOS Apps and App Store • All iOS apps signed by Apple (not developer) • Third-party apps signed only after: – Developer ID verification (individual, company) – Review: bugs, work correctly (program analysis)
• Each app sandboxed in its own directory – Cannot communicate with other apps – Apps need signed “entitlements” to access user data
• Further app protection: – Address Space Layout Randomization (ASLR) for all apps – ARM eXecute Never (XN) bit set for all memory pages
iOS Data Protection Measures • Each iDevice has hardware-accelerated crypto
operations (AES-256) • Effaceable Storage: securely removes crypto keys from
flash memory – “Erase all content and settings” wipes user data using
Effaceable Storage (locally or remotely) – Interact with mobile device management (MDM),
Exchange ActiveSync servers – Developers can use APIs for secure file, database storage
• Passcodes – Admins can require numeric, alphanumeric, etc. – Wipe device after 10 failed login attempts
iPhone Configuration Utility
41
iPhone Configuration Utility
Miscellaneous iOS Security • Built-in support for
SSLv3, TLS, VPNs • Extensive administrative
controls: – Password policies – Disable device features,
e.g., camera – Disable Siri – Remote wipe
• Apps can access contacts without permission (fixed in iOS 6)
• Mainly for privacy• Apps are limited to what
they can do• * Apps can access contact
data without permission (will be fixed in iOS 6)
• Developers can do this on their own (Yelp)…
25
Apple: Very Little App Permissions Shown To Users
Source: [8]
iOS Jailbreaking • Circumvents Apple’s iOS
security mechanisms – Violates iDevice’s terms of use – Allows installation of apps
from alternative app stores, e.g., Cydia
– Removes app sandbox – Usually replaces kernel with
one accepting non-Apple signatures
– Tools: redsn0w, Absinthe, etc. • Legal in U.S. under DMCA
2010 exemption
Google Android Platform
• Android: Linux-based mobile handset platform
• Developed by Google, Open Handset Alliance for handset manufacturers – Includes T-Mobile, Sprint
Nextel, Google, Intel, Samsung, etc. [29]
– Free, open mobile handset platform for industry [30]
• Flagship: Google Nexus 4
Android Architecture
Android Features and Software • Features
– 3D: OpenGL ES 1.0 – SQLite: Database engine – WebKit: Web browser – Dalvik: Register-based VM
similar to Java VM [32] – FreeType: Bitmap and vector
font rendering – Connectivity: Bluetooth,
802.11, GPS
• Core Applications – Email, SMS, calendar, Google
apps, browser, etc. – Written in Java
• App Framework – Full access to same
framework APIs – Architecture designed for
component reuse
• Runtime – Core C++ library – Multiple Dalvik VMs run in a
process, rely on Linux kernel for process isolation [32]
Android Security (1) • Android built on Linux kernel, which provides – User permissions model – Process isolation
• Each app is assigned unique user/group IDs, run as a separate process ⇒ app sandbox
• System partition mounted read-only • Android 3.0+ enables filesystem encryption using
Linux dmcrypt (AES-128) • Device admins can require passwords with
specific criteria, remote wipe devices, etc.
Android Security (2)
• Android device administration (3.0+): – Remote wipe – Require strong password – Full device encryption – Disable camera
Android Security (3) • Other protection mechanisms: – Android 1.5+: stack buffer, integer overflow protection;
double free, chunk consolidation attack prevention – Android 2.3+: format string protection, NX, null pointer
dereference mitigation – Android 4.0+: ASLR implemented – Android 4.1+: ASLR strengthened, plug kernel leaks
• Capability-based permissions mechanism: – Many APIs are not invoked without permission, e.g.,
camera, GPS, wireless, etc. – Every app must declare the permissions it needs – Users need to allow these permissions when installing app
Android Security (4)
• All Android apps need to be signed: by the developer, not Google
• Google Play app store less regulated – Apps available rapidly
after publishing – Bouncer service scans
for malware in store [11]
Google Play permissions interface
Android Device Diversity (1) • Android runs on various
devices – Different devices run
different OS versions – Device manufacturers often
add their own custom UIs, software
– Mobile operators add their own software
– Not all devices are updated to latest Android version!
• Security challenges…
Android devices accessing Google Play, August 2012. Some devices are not always updated to the latest version. These devices tend to have security vulnerabilities targeted
by attackers.
Source: [12]
Android Device Diversity (2)
• Notice many Android devices are “orphaned” without major updates [13]
• Android developers need to secure their apps for many different devices…
Android Device Diversity (3)
The OpenSignalMaps Android app sees almost 4,000 types of device clients. Source: [14]
Rooting Android Devices • Android device owners can often get root access to
their devices – Process can be as simple as unlocking bootloader – Sometimes, exploit bugs to get root – Result: install OS of choice, bypass device/operator
restrictions – Legal under 2010 DMCA exemption
• Security problems: – Voids device warranty (usually) – Circumvents app sandbox: root can modify any app’s files – Malware can root and own your device!
References (1) 1. Cisco, “Cisco Visual Networking Index: Global Mobile Data Traffic Forecast Update, 2011–
2016”, 14 Feb. 2012, http://www.cisco.com/en/US/solutions/collateral/ns341/ns525/ns537/ ns705/ns827/white_paper_c11-520862.html
2. Samsung, “Exynos 5 Dual,” 2012, http://www.samsung.com/global/business/semiconductor/ product/application/detail?productId=7668&iaId=2341
3. Nielsen Co., “Two Thirds of All New Mobile Buyers Now Opting for Smartphones,” 12 Jul. 2012, http://blog.nielsen.com/nielsenwire/online_mobile/two-thirds-of-new-mobile-buyers- now-opting-for-smartphones/
4. K. De Vere, “iOS leapfrogs Android with 410 million devices sold and 650,000 apps,” 24 Jul. 2012, http://www.insidemobileapps.com/2012/07/24/ios-device-sales-leapfrog-android-with- 410-million-devices-sold/
5. K. Haslem, “Macworld Expo: Optimised OS X sits on ‘versatile’ Flash,” 12 Jan. 2007, Macworld, http://www.macworld.co.uk/ipod-itunes/news/index.cfm?newsid=16927
6. Wikipedia, “iOS,” updated 2012, http://en.wikipedia.org/wiki/iOS 7. Apple Inc., “iPhone Developer University Program,”
http://developer.apple.com/iphone/program/university.html 8. Apple Inc, “iOS Security,” http://images.apple.com/ipad/business/docs/
iOS_Security_May12.pdf 9. Android Open Source Project, “Android Security Overview,” http://source.android.com/tech/
security/index.html Presentation organization inspired by T. Eston, “Android vs. iOS Security Showdown,” 2012, http://www.slideshare.net/agent0x0/the-android-vs-apple-ios-security-showdown
References (2) 10. A. Rubin, 15 Feb. 2012, https://plus.google.com/u/0/112599748506977857728/
posts/Btey7rJBaLF 11. H. Lockheimer, “Android and Security,” 2 Feb. 2012, http://googlemobile.blogspot.com/
2012/02/android-and-security.html 12. Android Open Source Project, http://developer.android.com/about/dashboards/index.html 13. M. DeGusta, “Android Orphans: Visualizing a Sad History of Support,” 26 Oct. 2011,
http://theunderstatement.com/post/11982112928/android-orphans-visualizing-a-sad-history-of-support
14. http://opensignalmaps.com/reports/fragmentation.php 15. http://www.micro-trax.com/statistics ` 16. Lookout, Inc., “Mobile Lost and Found,” 2012, https://www.mylookout.com/resources/
reports/mobile-lost-and-found/ 17. K. Haley, “Introducing the Smartphone Honey Stick Project,” 9 Mar. 2012,
http://www.symantec.com/connect/blogs/introducing-symantec-smartphone-honey-stick-project
18. Juniper Networks, Inc., “Global Research Shows Mobile Malware Accelerating,” 15 Feb. 2012, http://newsroom.juniper.net/press-releases/global-research-shows- mobile-malware-accelerating-nyse-jnpr-0851976
References (3) 19. F-Secure, “Mobile Threat Report Q2 2012,” 7 Aug. 2012, http://www.slideshare.net/fsecure/
mobile-threat-report-q2-2012 20. http://nakedsecurity.sophos.com/2012/04/12/a ndroid-malware-angry-birds-space-game/ 21. Via Forensics LLC, “Forensic Security Analysis of Google Wallet,” 12 Dec. 2011,
https://viaforensics.com/mobile-security/forensics-security-analysis-google-wallet.html 22. Proxmark, http://www.proxmark.org/ 23. libnfc, http://www.libnfc.org 24. D. Goodin, “Android, Nokia smartphone security toppled by Near Field Communication hack,”
25 Jul. 2012, http://arstechnica.com/security/2012/07/android-nokia-smartphone-hack/ 25. B. Andersen, “Australian admits creating first iPhone virus,” 10 Nov. 2009,
http://www.abc.net.au/news/2009-11-09/australian-admits-creating-first-iphone-virus/1135474 26. R. Radia, “Why you should always encrypt your smartphone,” 16 Jan. 2011,
http://arstechnica.com/gadgets/2011/01/why-you-should-always-encrypt-your-smartphone/ 27. Heritage Foundation, “Solutions for America: Overcriminalization,” 17 Aug. 2010,
http://www.heritage.org/research/reports/2010/08/overcriminalization 28. Wikipedia, http://en.wikipedia.org/wiki/Mobile_device_forensics 29. C. Quentin, http://www.slideshare.net/cooperq/your-cell-phone-is-covered-in-spiders
References (4) 30. A. J. Aviv, K. Gibson, E. Mossop, M. Blaze, and A. M. Smith, “Smudge Attacks on
Smartphone Touch Screens,” Proc. USENIX WOOT, 2010. 31. X. Ni, Z. Yang, X. Bai, A. C. Champion, and Dong Xuan, “DiffUser: Differentiated User
Access Control on Smartphones,” Proc. IEEE Int’l. Workshop on Wireless and Sensor Networks Security (WSNS), 2009.
32. W. Enck, P. Gilbert, B.-G. Chun, L. P. Cox, J. Jung, P. McDaniel, and A. N. Sheth, “TaintDroid: An Information-Flow Tracking System for Realtime Privacy Monitoring on Smartphones,” Proc. USENIX OSDI, 2010, http://appanalysis.org
33. W. Enck, P. Gilbert, B.-G. Chun, L. P. Cox, J. Jung, P. McDaniel, and A. N. Sheth, “TaintDroid: An Information-Flow Tracking System for Realtime Privacy Monitoring on Smartphones,” http://static.usenix.org/event/osdi10/tech/slides/enck.pdf
34. B. Gu, X. Li, G. Li, A. C. Champion, Z. Chen, F. Qin, and D. Xuan, “D2Taint: Differentiated and Dynamic Information Flow Tracking on Smartphones for Numerous Data Sources,” Technical Report, 2012.