Toward Uncensorable, Anonymous and Private Access Over Satoshi Blockchains

Ruben Recabarren, Bogdan Carbunar
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引用次数: 1

Abstract

Abstract Providing unrestricted access to sensitive content such as news and software is difficult in the presence of adaptive and resourceful surveillance and censoring adversaries. In this paper we leverage the distributed and resilient nature of commercial Satoshi blockchains to develop the first provably secure, censorship resistant, cost-efficient storage system with anonymous and private access, built on top of commercial cryptocurrency transactions. We introduce max-rate transactions, a practical construct to persist data of arbitrary size entirely in a Satoshi blockchain. We leverage max-rate transactions to develop UWeb, a blockchain-based storage system that charges publishers to self-sustain its decentralized infrastructure. UWeb organizes blockchain-stored content for easy retrieval, and enables clients to store and access content with provable anonymity, privacy and censorship resistance properties. We present results from UWeb experiments with writing 268.21 MB of data into the live Litecoin blockchain, including 4.5 months of live-feed BBC articles, and 41 censorship resistant tools. The max-rate writing throughput (183 KB/s) and blockchain utilization (88%) exceed those of state-of-the-art solutions by 2-3 orders of magnitude and broke Litecoin’s record of the daily average block size. Our simulations with up to 3,000 concurrent UWeb writers confirm that UWeb does not impact the confirmation delays of financial transactions.
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Satoshi区块链上的不可审查、匿名和私人访问
摘要在存在自适应和足智多谋的监视和审查对手的情况下,很难不受限制地访问新闻和软件等敏感内容。在本文中,我们利用商业Satoshi区块链的分布式和弹性,在商业加密货币交易的基础上开发了第一个可证明安全、抗审查、具有成本效益的匿名和私人访问的存储系统。我们引入了最大速率交易,这是一种在Satoshi区块链中完全保持任意大小数据的实用结构。我们利用最高利率交易开发UWeb,这是一个基于区块链的存储系统,向出版商收取费用,以自行维持其去中心化基础设施。UWeb组织区块链存储的内容以便于检索,并使客户能够存储和访问具有可证明的匿名性、隐私性和审查阻力的内容。我们展示了UWeb实验的结果,将268.21MB的数据写入实时Litecoin区块链,包括4.5个月的BBC直播文章和41个抵制审查的工具。最大写入吞吐量(183KB/s)和区块链利用率(88%)超过了最先进的解决方案2-3个数量级,并打破了莱特币的日均区块大小记录。我们对多达3000名并发UWeb作者的模拟证实,UWeb不会影响金融交易的确认延迟。
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