High latency is a critical limitation within the Tor network. A key factor exacerbating Tor latency is the creation of lengthy circuits that span across geographically distant regions, causing significant transmission delays. To address this issue, a common strategy involves modifying Tor's circuit building process to reduce the likelihood of selecting lengthy circuits. However, this strategy compromises the randomness of Tor's routing, thereby increasing the risk of deanonymization. Improving Tor's latency performance while minimizing security degradation presents a critical challenge. This paper proposes SaTor, a latency-improving scheme for Tor using satellite routing technology. SaTor proposes equipping a targeted subset of Tor relays with satellite network access, utilizing long-distance satellite transmission to accelerate slow circuits, without biasing the existing path selection process. Our SaTor performance evaluation, using a simulator we developed coupled with real-world measurements, demonstrates that over the long-term, SaTor offers an expected speed-up of roughly 40 ms for over 70% of circuits under common conditions. This improvement necessitates outfitting the top approx. 30-40% relays with satellite access. Our research uncovers a viable way to overcome Tor's latency bottleneck, serving as a practical reference for its future enhancement.
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