Cross-domain identity authentication scheme based on blockchain and PKI system

IF 3.2 Q2 COMPUTER SCIENCE, INFORMATION SYSTEMS High-Confidence Computing Pub Date : 2023-03-01 DOI:10.1016/j.hcc.2022.100096
Hai Zhang , Feng Zhao
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引用次数: 5

Abstract

In vehicular ad hoc networks (VANET), the cross-domain identity authentication of users is very important for the development of VANET due to the large cross-domain mobility of vehicle users. The Public Key Infrastructure (PKI) system is often used to solve the identity authentication and security trust problems faced by VANET. However, the PKI system has challenges such as too centralized Authority of Certification Authority (CA), frequent cross-domain access to certificate interactions and high authentication volume, leading to high certificate management costs, complex cross-domain authentication paths, easy privacy leakage, and overburdened networks. To address these problems, this paper proposes a lightweight blockchain-based PKI identity management and authentication architecture that uses smart contracts to reduce the heavy burden caused by CAs directly managing the life cycle of digital certificates. On this basis, a trust chain based on smart contracts is designed to replace the traditional CA trust chain to meet the general cross-domain requirements, to effectively avoid the communication pressure caused by a mass of certificate transmissions. For the cross-domain scenario with higher privacy and security requirements the identity attribute authentication service is provided directly while protecting privacy by using the Merkle tree to anchor identity attribute data on and off the blockchain chain. Finally, the proposed scheme was comprehensively analyzed in terms of cost, time consumption and security.

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基于区块链和PKI系统的跨域身份认证方案
在车载自组织网络(VANET)中,由于车辆用户具有较大的跨域移动性,用户的跨域身份认证对VANET的发展非常重要。公钥基础设施(PKI)系统通常用于解决VANET面临的身份认证和安全信任问题。然而,PKI系统面临着证书颁发机构(CA)过于集中、证书交互频繁跨域访问和身份验证量大等挑战,导致证书管理成本高、跨域身份验证路径复杂、隐私容易泄露和网络负担过重。为了解决这些问题,本文提出了一种基于区块链的轻量级PKI身份管理和认证架构,该架构使用智能合约来减轻CA直接管理数字证书生命周期所带来的沉重负担。在此基础上,设计了一种基于智能合约的信任链,以取代传统的CA信任链,满足通用的跨域需求,有效避免了大量证书传输带来的通信压力。对于隐私和安全要求更高的跨域场景,直接提供身份属性认证服务,同时通过使用Merkle树在区块链链上和链下锚定身份属性数据来保护隐私。最后,从成本、时间消耗和安全性三个方面对所提出的方案进行了综合分析。
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CiteScore
4.70
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