分布式版本控制系统的机密性和真实性-一个Mercurial扩展

Michael Lass, Dominik Leibenger, Christoph Sorge
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引用次数: 3

摘要

版本控制系统(VCS)是软件开发和文档管理的重要工具。客户端/服务器和分布式(点对点)模型都存在,后者(例如Git和Mercurial)正变得越来越流行。它们的分布式特性带来了复杂性,特别是在安全性方面:很难控制存储在分布式VCS中的内容的传播,因为它们依赖于向任何相关用户复制完整的存储库。我们通过设计和实现对用户透明的密码学强制访问控制的概念来克服这个问题。使用经过现场测试的方案(端到端加密、数字签名)可以提供强大的安全性,而采用聚合加密和内容定义的分块可以保持存储效率。这个概念被无缝地集成到mercurly中——考虑到它的分布式存储概念——以确保实际的可用性和对现有部署的兼容性。
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Confidentiality and Authenticity for Distributed Version Control Systems - A Mercurial Extension
Version Control Systems (VCS) are a valuable tool for software development and document management. Both client/server and distributed (Peer-to-Peer) models exist, with the latter (e.g., Git and Mercurial) becoming increasingly popular. Their distributed nature introduces complications, especially concerning security: it is hard to control the dissemination of contents stored in distributed VCS as they rely on replication of complete repositories to any involved user. We overcome this issue by designing and implementing a concept for cryptography-enforced access control which is transparent to the user. Use of field-tested schemes (end-to-end encryption, digital signatures) allows for strong security, while adoption of convergent encryption and content-defined chunking retains storage efficiency. The concept is seamlessly integrated into Mercurial-respecting its distributed storage concept-to ensure practical usability and compatibility to existing deployments.
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