NANOG68: PERISCOPE: Standardizing and Orchestrating Looking Glass Querying
November 4th, 2016 by Web TeamCAIDA’s Vasileios Giotsas had the opportunity to present PERISCOPE: Standardizing and Orchestrating Looking Glass Querying to the folks at NANOG68. The presentation covered his work on the Periscope Looking Glass API.
The work sets out to unify the heterogenous thousands of autonomously operated Looking Glass (LG) servers into a single unified standardized API for querying and executing experiments across the collective resource as a whole. From the beginning, we understood that while the hosting networks make these services public, usage policies varied and many LG services request clients rate limit their queries or impose rate limits and some forbid automated queries entirely. We do our best with Periscope administration to respect LG resources and implement conservative client rate limiting enforcing a per-user and per-LG rate limits. We identify our clients to provide transparency and accountability.
We believe the Periscope architecture brings several primary benefits. The LG data complements our current trace data and extends the topology coverage. It allows us to implement intelligent load design across all LG servers, uses caching to reduce the number of redundant queries, and makes more efficient use of the LG resources as a whole. Finally, Periscope improves troubleshooting capabilities (often the reason for supporting these services in the first place).
A webcast of the NANOG68 Periscope presentation is available, as well as the accompanying slideset presented at NANOG68.
Full paper:
V. Giotsas, A. Dhamdhere, and k. claffy, “Periscope: Unifying Looking Glass Querying“, in Passive and Active Network Measurement Workshop (PAM), Mar 2016.
Periscope Architecture v1.0
This work was supported in part by the National Science Foundation, the DHS Science and Technology Directorate, Cyber Security Division (DHS S&T/CSD) and by Defence R&D Canada (DRDC).