Dining-cryptographers networks (DCN) can achieve information-theoretical privacy. Unfortunately, they are not well suited for peer-to-peer networks as they are used in blockchain applications to disseminate transactions and blocks among participants. In previous but preliminary work, we proposed a threephase approach with an initial phase based on a DCN with a group size of k while later phases take care of the actual broadcast within a peer-to-peer network. This paper describes our DCN protocol in detail and adds a performance evaluation powered by our proof-of-concept implementation. Our contributions are (i) an extension of the DCN protocol by von Ahn for fair delivery of arbitrarily long messages sent by potentially multiple senders, (ii) a privacy and security analysis of this extension, (iii) various performance optimisation especially for best-case operation, and (iv) a performance evaluation. The latter uses a latency of 100 ms and a bandwidth limit of 50 Mbit/s between participants. The interquartile range of the largest test of the highly secured version took 35s+-1.25s for a full run. All tests of the optimized common-case mode show the dissemination of a message within 0.5s+-0.1s. These results compare favourably to previously established protocols for k-anonymous transmission of fixed size messages, outperforming the original protocol for messages as small as 2 KiB.
翻译:不幸的是,它们并不完全适合同行对同行网络,因为它们被用于在参与者中传播交易和块块。在以前但初步的工作中,我们提议了以DCN为初始阶段的三阶段办法,其基础是具有k组尺寸的DCN, 而后阶段则在同行对同行网络中照顾实际广播。本文详细描述了我们的DCN协议,并增加了一项通过我们验证概念实施而得到的绩效评价。我们的贡献是:(一) 冯安为公平发送由潜在多个发送者发送的任意长长信息而扩展DCN协议,(二) 对这一扩展的隐私和安全分析,(三) 各种绩效优化,特别是最佳操作,以及(四) 性能评估。后者使用了100毫秒的定位和50百万比特/秒的带宽限制。高度安全版本的最大测试范围为35+-1.25秒,用于在最大版本内部全面运行0.5-B邮件。