The Effect of DNS on Tor's Anonymity
We show how an attacker can use DNS requests to mount highly precise website fingerprinting attacks: Mapping DNS traffic to websites is highly accurate even with simple techniques, and correlating the observed websites with a website fingerprinting attack greatly improves the precision when monitoring relatively unpopular websites. Our results show that DNS requests from Tor exit relays traverse numerous autonomous systems that subsequent web traffic does not traverse. We also find that a set of exit relays, at times comprising 40% of Tor’s exit bandwidth, uses Google’s public DNS servers—an alarmingly high number for a single organization. We believe that Tor relay operators should take steps to ensure that the network maintains more diversity into how exit relays resolve DNS domains.
full text: We show how an attacker can use DNS requests to mount highly precise website fingerprinting attacks: Mapping DNS traffic to websites is highly accurate even with simple techniques, and correlating the observed websites with a website fingerprinting attack greatly improves the precision when monitoring relatively unpopular websites. Our results show that DNS requests from Tor exit relays traverse numerous autonomous systems that subsequent web traffic does not traverse. We also find that a set of exit relays, at times comprising 40% of Tor’s exit bandwidth, uses Google’s public DNS servers—an alarmingly high number for a single organization. We believe that Tor relay operators should take steps to ensure that the network maintains more diversity into how exit relays resolve DNS domains.
full text: https://nymity.ch/tor-dns/tor-dns.pdf
webpage: https://nymity.ch/tor-dns/
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