1 / 25

Securing Elastic Applications on Mobile Devices for Cloud Computing

Securing Elastic Applications on Mobile Devices for Cloud Computing. 2009 ACM Cloud Computing Security Workshop (CCSW). Xinwen Zhang ,Joshua Schiffman,Simon Gibbs. Outline. Introduction Issue and challenges Elastic Framework Architecture Threat Model Security Objectives Authentication

erol
Download Presentation

Securing Elastic Applications on Mobile Devices for Cloud Computing

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Securing Elastic Applications on Mobile Devicesfor Cloud Computing 2009 ACM Cloud Computing Security Workshop (CCSW) Xinwen Zhang ,Joshua Schiffman,Simon Gibbs

  2. Outline • Introduction • Issue and challenges • Elastic Framework Architecture • Threat Model • Security Objectives • Authentication • Authorization • Conclusion

  3. Introduction • Cloud computing delivers new computing models for service providers and individual consumers • Infrastructure-as-a-service (IaaS), • Platform-as-a-service (PaaS), • Software-as-a-service (SaaS) • Enable novel IT business models • Resource-on-demand, • pay-as-you-go, • and utility-computing • Research exploration • The benefits of cloud computing Cloud aware applications

  4. Issue • In the scope of consumer electronic (CE) devices, applications traditionally are constrained by limited resources such as • low CPU frequency, small memory, and a battery-powered computing environment. • We aim to design an elastic services protocol, which are augmented CE devices with cloud-based functionality. • Executing elastic applications that can run efficiently on resource constrained devices. • Seamlessly and transparently making use of cloud resources whenever needed

  5. Key Definition in this paper • Weblet: • One or more weblet can consist of an elastic application. • function independently, but communicate with each other. • Elasticity manager: • Installed in mobile devices • Make decisions where weblet should be launched. • Elasticity service: • Residing on the cloud • Arranges the execution resources of the weblet launched on the cloud

  6. Elastic Application Overview Elastic service may not be the Iaas/Paas Provider

  7. Scenario • Weblet should be launched on one or more platforms in the cloud: • Computation or communication intensive weblets usually strain the processors of mobile devices • Such as image and video processing • Launched on the device: • Needing extensive access to local data. • Such as User interface components (UI). • Fast response is not a requirement. • Cost concern • Device is offline

  8. Challenges(1/2) • A new application model is needed: • Support applications partitioned into multiple components • Can run autonomously from the others [14,11] • Communication[7] • An appropriate protocol is needed between weblets during runtime • Synchronize the state of the application [7] R. K. Balan, M. Satyanarayanan, S. Park, and T. Okoshi. Tactics-based remote execution for mobile computing. In Proc. of MobiSys, 2003. [14] A. Messer, I. Greenberg, P. Bernadat, D. Milojicic, D. Chen,T. Giuli, and X. Gu. Towards a distributed platform for resource-constrained devices. Technical Report HPL-2002-26, HP Laboratories, 2002. [11] G. C. Hunt, M. L. Scott, G. C. Hunt, and M. L. Scott. The coign automatic distributed partitioning system. In Proc. Of OSDI, 1999.

  9. Challenges(2/2) • A set of cost objective functions are needed • Should be optimized when elastic scheduling decisions are made • Security and privacy • considering some sensitive weblets and data migrating from device to cloud.

  10. Elastic Framework Architecture

  11. Security Assumptions • We place trust in the Cloud Elasticity Services (CES) including cloud manager, application manager, cloud node manager, and CFI. • Note. this assumption does not mean we completely trust the IaaS/Paas providers. • Also, as part of the elastic framework we trust the elasticity manager on each device. • We require that each user should first pair their DEM with a CES.

  12. Threat Model : Threats to Mobile Devices • Malware targeting mobile devices such as smartphones have become prevalent. • including Symbian and iPhone platforms [12, 2] • Malware can compromise the Device Elasticity Manager(DEM). • Compromise of the device’s sensing components • Bypass the elasticity manager and launch weblets on cloud platforms on behalf of the user [12] M. Hypponen. State of cell phone malware in 2007, http://www.usenix.org/events/sec07/tech/hypponen.pdf. [2] Mcafee mobile security report 2009, http://www.mcafee.com/us/local_content/reports/mobile_security_report_2009.pdf.

  13. Threat Model: Threats to Cloud Platform and Application Container • Misconfigurations of critical cloud components could lead to weblet compromise • Weak authentication • Access control settings • Software vulnerabilities • Malicious entities can change network and cost settings, or even cloud sensing information • Other malicious activities can consume resources of cloud platform such as CPU cycles, storage, and network traffic.

  14. Threat Model: Threats to Communication Channels • Threats exist from active network entities • such as packet injection • and Man-in-the-Middle (MITM) attacks • Eavesdrop • DDoS • Not only exhaust bandwidth resources, but also result in excessive charges to user accounts

  15. Security Objectives • Trustworthy weblet containers on both device and cloud: • How trust is established with the container should not only rely on social and legal agreements (e.g., those for cloud providers), but also via technical mechanisms such as integrity measurement and attestation [4, 16]. • Authentication and secure session management • Authorization and access control • Logging and auditing • Behaviors of weblets should be logged and audited routinely to prevent malicious activities [4] Tcg mobile reference architecture specification, https://www.trustedcomputinggroup.org/specs/mobilephone/tcg-mobile-reference-architecture-1.0.pdf. [16]R. Sailer, T. Jaeger, X. Zhang, and L. van Doorn. Attestation-based policy enforcement for remote access. In Proc. of ACM CCS, 2004.

  16. Secure Installation of Elastic Applications(1/2) • Manifest: • description of the application • the developer signed SHA1 hash values of the individual weblets • The location Where individual weblets can be installed and executed, • (e.g., migratable, cloud side only, or device side only).

  17. Secure Installation of Elastic Applications(2/2) • User downloads and installs an application the installer will recompute and compare their hashes and with those in the bundle • As an installation option, parts of the elastic application can be installed by the application manager into the CES. • The cloud-based application manager also can download the same application from an application store • To save communication overhead of mobile device.

  18. Building Authentication between Weblets • Goal: • enable a weblet to authenticate another weblet of the same application in different location

  19. wsk: weblet session keys wss: weblet secret Sig: Signature(use HMAC)

  20. Secure Migration • Assumption: • VM migration by cloud infrastructure is transparent to end users and applications including SaaS providers • If the VM’s IP address changes, the cloud provider would provide migration events and status to other service providers

  21. Secure Migration

  22. Authorization of Weblets:Scennario

  23. Authorization of Weblets(1/2) • Shared user credentials • Each weblet has user credentials such as username and password or digital certificate of the web service. • simplest solution, • but implies that each weblet can represent the user and introduces risks, especially for those on cloud. • Shared session information • it shares application session key (ask) and secret(ass) • Safer solution than the first one • Usually is only valid for a short time period after authentication

  24. Authorization of Weblets(2/2) • Cloud based weblet forwards the requests to the authenticated device weblet, which has ask and ass. • This enhances the security as session information is only available on the device. • Multiple re-directions are needed communication overhead • OAuth-like authentication • It generates an authentication challenge on behalf of the user and redirects any responded authentication URL to the UI. • If success, device weblet re-directs the resulting session information to the original requesting cloud weblet • User can choose by himself.

  25. Conclusion & Future work • To augment computing, storage, and communication capabilities of applications for resource-constrained devices. • We are developing an elastic application framework with new application model and elasticity infrastructure. • This paper analyzes security threats to elastic applications and identifies security objectives that should be provided by the infrastructure • We then propose authentication, secure migration, and different approaches to authorize weblets. • Future work: • A cost service for mobile users running elastic applications

More Related