Path-Quality Monitoring in the Presence of Adversaries: The Secure Sketch Protocols

Path-Quality Monitoring in the Presence of Adversaries: The Secure Sketch Protocols

Edge networks connected to the Internet need effective monitoring techniques to inform routing decisions and detect violations of Service Level Agreements (SLAs). However, existing measurement tools, like ping, traceroute, and trajectory sampling, are vulnerable to attacks that can make a path look...

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Bibliographic Details
Published in:IEEE/ACM transactions on networking Vol. 23; no. 6; pp. 1729 - 1741
Main Authors: Goldberg, Sharon, Xiao, David, Tromer, Eran, Barak, Boaz, Rexford, Jennifer
Format: Journal Article
Language:English
Published: New York IEEE 01-12-2015
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects:
Algorithms
Cryptography
Decisions
Design analysis
Exact solutions
Monitoring
Network measurement
next-generation networking
Packet transmission
Protocol
Protocol (computers)
Radiation detectors
Routing protocols
Sampling
security
Service level agreements
Vectors
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Summary:Edge networks connected to the Internet need effective monitoring techniques to inform routing decisions and detect violations of Service Level Agreements (SLAs). However, existing measurement tools, like ping, traceroute, and trajectory sampling, are vulnerable to attacks that can make a path look better than it really is. Here, we design and analyze a lightweight path-quality monitoring protocol that reliably raises an alarm when the packet-loss rate exceed a threshold, even when an adversary tries to bias monitoring results by selectively delaying, dropping, modifying, injecting, or preferentially treating packets. Our protocol is based on sublinear algorithms for sketching the second moment of stream of items and can monitor billions of packets using only 250-600 B of storage and the periodic transmission of a comparably sized IP packet. We also show how this protocol can be used to construct a more sophisticated protocol that allows the sender to localize the link responsible for the dropped packets. We prove that our protocols satisfy a precise definition of security, analyze their performance using numerical experiments, and derive analytic expressions for the tradeoff between statistical accuracy and system overhead. This paper contains a deeper treatment of results from earlier conference papers and several new results.
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ISSN:1063-6692
1558-2566
DOI:10.1109/TNET.2014.2339853