Padding-only Defenses Add Delay in Tor

Ethan Witwer, James K. Holland, Nicholas Hopper
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引用次数: 7

Abstract

Website fingerprinting is an attack that uses size and timing characteristics of encrypted downloads to identify targeted websites. Since this can defeat the privacy goals of anonymity networks such as Tor, many algorithms to defend against this attack in Tor have been proposed in the literature. These algorithms typically consist of some combination of the injection of dummy "padding'' packets with the delay of actual packets to disrupt timing patterns. For usability reasons, Tor is intended to provide low latency; as such, many authors focus on padding-only defenses in the belief that they are "zero-delay.'' We demonstrate through Shadow simulations that by increasing queue lengths, padding-only defenses add delay when deployed network-wide, so they should not be considered "zero-delay.'' We further argue that future defenses should also be evaluated using network-wide deployment simulations.
仅填充防御在Tor中添加延迟
网站指纹是一种利用加密下载的大小和时间特征来识别目标网站的攻击。由于这可能会破坏Tor等匿名网络的隐私目标,因此文献中提出了许多算法来防御Tor中的这种攻击。这些算法通常由虚拟“填充”数据包的注入与实际数据包的延迟的某种组合组成,以破坏定时模式。出于可用性的考虑,Tor旨在提供低延迟;因此,许多作者专注于仅填充防御,认为它们是“零延迟”。我们通过Shadow模拟证明,通过增加队列长度,仅填充防御在整个网络范围内部署时会增加延迟,因此它们不应该被视为“零延迟”。“我们进一步认为,未来的防御也应该使用全网络部署模拟来评估。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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