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On the Impact of Security Protocols on the Performance of SNMP

On the Impact of Security Protocols on the Performance of SNMP. Group 6 KHAN, Taimur KONG, Jing SHIH, Min SUN, Mengti YU, Chenglin. J. Schonwalder and V. Marinov IEEE Transactions on Network and Service Management, 2011, pp.52-64 http://dx.doi.org/10.1109/TNSM.2011.012111.00011.

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On the Impact of Security Protocols on the Performance of SNMP

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  1. On the Impact of Security Protocols on the Performance of SNMP Group 6 KHAN, Taimur KONG, Jing SHIH, Min SUN, Mengti YU, Chenglin J. Schonwalder and V. Marinov IEEE Transactions on Network and Service Management, 2011, pp.52-64 http://dx.doi.org/10.1109/TNSM.2011.012111.00011 24 slides

  2. Summary Question: How can SSH, TLS, DTLS be used to address limitations in SNMPv3/USM? Answer this question by Analyzing impact and performance between the various options to secure SNMP

  3. Outline • Background • SNMP Architecture • Message-based Security • Session-based Security • Performance Evaluation • Key Findings • Guidelines for Choosing Solutions

  4. Background SSH, TLS, DTLS are introduced which can take advantage of already deployed key management infrastructures SNMPv1 has no cryptographic security && the engineered solution on SNMPv2 is too complex USM (User- based Security Model) on SNMPv3 SNMPv3 and USM have to deploy another user and key management infrastructure  high cost

  5. SNMP Architecture ASIs are the interfaces between subsystem Ref. RFC3414(USM), 3584(CSM), 5591(TSM), 5592(SSHTM), 6353(TLSTM)

  6. Message-based Security • CSM (SNMPv1, SNMPv2c) • Plain-text community string which provides very little security. • USM (SNMPv3) • noAuthNoPriv (nn) • no authentication, no encryption • authNoPriv (an) • message authentication, message integrity, timeliness checking • no encryption • authPriv (ap) • message authentication, message integrity, timeliness checking • encryption of the payload of SNMP messages

  7. TSD for Message-basedSecurity

  8. Session-based Security • Transport Security Model • Negligible costs on passing existing information • SSH Transport Model • Many methods for authentication • TLS Transport Model for TLS • Session resumption mechanism • X.509 certificates for authentication • TLS Transport Model for DTLS (over datagram)

  9. TSD for Session-based Security

  10. Performance Evaluation • Session Establishment • Latency without Packet Loss • Bandwidth Usage • Latency with Packet Loss • Impact of Bulk Retrieval

  11. Session Establishment PERFORMANCE OF A SINGLE SNMPGET REQUESTS (SYSDESCR.0)

  12. Slow machine Fast machine • USM/ap≈ USM/an ≈ USM/nn • little benefit in removing auth/priv

  13. Latency without Packet Loss (II) • USM/ap≈ TSM/SSH ≈ TSM/(D)TLS • difference of protocols do not have much impact on delays if using similar hash functions and encryption transformations

  14. For v3/USM/ap, v3/USM/nn, v2/CSMover UDP ≈ over TCP • UDP ≈ TCP in a fast reliable network

  15. USM/ap > USM/an > USM/nn> SNMPv2/TCP >SNMPv2/UDP

  16. TSM/TLS > TSM/SSH > USM > TSM/DTLS

  17. Latency with Packet Loss • TCP's retransmission algorithm clearly outperforms simple non-adaptive SNMP retransmission algorithm PACKET SIZES FOR ALL SECURITY MODEL / TRANSPORT / SECURITY LEVEL COMBINATIONS

  18. Impact of Bulk Retrieval In the best case, r reduces the number of interactions to 1/r. But not the same factor for latency ↑ max-repetitions parameter (r)↓ number of interaction needed↓ overall latency

  19. Key Findings • TLS session resumption feature significantly reduces the session reestablishment costs. • The resumption mechanism for SSH has yet to be standardised • The difference between USM, SSH, TLS and DTLS in terms of latency is small after the session is established. • The non-adaptive SNMP retransmission algorithm is outperformed by TCP algorithms in packet loss networks. • The usage of GetBulk dramatically reduces the number of requests sent over the network, resulting in much better overall performance.

  20. Guidelines for Choosing Solutions(SNMPv3/TSM/SSH) • Good AAA Integration • Easy derivation of securityName • Efficient message encoding • × Large session establishment overhead • × Lack of session resumption mechanisms • TCP Supports large messages better than UDP • TCP retransmission algorithms work well

  21. Guidelines for Choosing Solutions(SNMPv3/TSM/TLS) • Same pros and cons of using TCP as SSHTM • TLS session resumption • Less session startup overhead than SSH • × Less efficient in message encodings than SSH • × Complicated derivation of securityName • × Lack of good AAA integration • × X.509 infrastructure must be in place

  22. Guidelines for Choosing Solutions(SNMPv3/TSM/DTLS) • Shares most of the pros and cons of TLSTM • Smaller framing overhead over UDP • Applications have control over retransmissions • Although application retransmission timers are to be coordinated with DTLS retransmission timers

  23. Guidelines for Choosing Solutions(SNMPv3/USM/UDP) • Separate key management infrastructure • Ensures the availability of security regardless of the presence of other infrastructures • × Expensive to deploy • Works efficiently if interactions are sporadic • Applications have full control over retransmissions. • SNMP/UDP may suffer from IP fragmentation

  24. Related work • Session resumption for the secure shell protocolhttp://dx.doi.org/10.1109/INM.2009.5188805 Thank you! Question?

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