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Protocol-Independent Adaptive Replay of Application Dialog

Protocol-Independent Adaptive Replay of Application Dialog. Authors: Vern Paxson, Nicholas C. Weaver, Randy H. Katz Published At: 13th Annual Network and Distributed System Security Symposium, Feb 2006 Presented By: Anvita Priyam. Overview. Intent of the Paper

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Protocol-Independent Adaptive Replay of Application Dialog

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  1. Protocol-Independent Adaptive Replay of Application Dialog Authors: Vern Paxson, Nicholas C. Weaver, Randy H. Katz Published At: 13th Annual Network and Distributed System Security Symposium, Feb 2006 Presented By: Anvita Priyam

  2. Overview • Intent of the Paper • RolePlayer, Its properties and goals • Mechanism • Evaluation • Weaknesses • Suggestions for improvement

  3. Application Dialog • Refers to recorded instance of an application session • Two main entities > Initiator- host that starts a session > Responder- The entity which the initiator contacts

  4. Why do we need Replay?? • Different attacks exploiting the same vulnerability often conduct same application dialog. • When developing new security mechanism repeat attacks to evaluate the system’s response.

  5. RolePlayer • A system which mimics both client and server sides of the session. • It uses examples of an application session

  6. Key Properties • Operates in application-independent fashion • Does not require specifics of the application that it mimics • Uses byte-stream alignment algorithms • Heuristically determines and adjusts IP addresses, ports, cookies and length fields

  7. Goals • Protocol Independence > so that it works transparently • Minimal training > uses only a small number of examples • Automation > correct operation without manual intervention

  8. Basic Idea • Locates the dynamic fields in an application data unit (ADU) • Adjusts them as necessary before sending the ADUs

  9. Types of Dynamic Fields • Endpoint-address: hostnames, IP addresses, port numbers • Length: length of ADU/subsequent dynamic field • Cookie: session specific opaque data e.g. transaction id • Argument: domain name, destination directory • Don’t care: opaque fields appearing in only one side of the dialog

  10. Work of RolePlayer • Preparation > first searches for end-point addresses & argument fields > then for length fields and cookie fields • Replay > first searches for new values of dynamic fields > then updates them with new values

  11. Service Protocol Discovery (SPD)

  12. SPD cont’d Requests have seven fields: • LEN-0: holds length of message • TYPE: message type (1->request, 2->response) • SID: session identifier (server echoes in response) • LEN-1: Length of HOSTNAME • LEN-2: Length of SERVICE Responses have five: • LEN-0, TYPE & SID are same • LEN-1: Length of IP-port field

  13. Preparation Stage

  14. Replay Stage NO Yes SEND RECEIVE NO NO YES YES Start Replay Next Packet? Finish Replay Send or Rcv? Rcv Packet First Packet? Send Packet Last Packet? Update Dynamic Fields in ADU Find Dynamic Fields in ADU

  15. Test Environment • Isolated testbed, set of nodes running on VMWare Workstation • Both Windows XP Professional, Fedora Core 3 images were used • RolePlayer ran in the Linux host system

  16. Evaluation

  17. Weaknesses • Its coverage is not universal • Can not accommodate protocols with time-dependent states • Protocols using cryptographic authentication/encrypted traffic are out of league • Adversary can detect its presence through the unchanged dynamic fields • It can be detected due to inconsistency b/w OS of application & RolePlayer.

  18. Suggestions • Randomize certain dynamic fields • Manipulate packet headers to match expected operating OS. • Identify & test additional, complex application protocols.

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