支持恶意惩罚的公平可编辑区块链方案

doi:10.19665/j.issn1001-2400.2023.01.022

摘要/Abstract

摘要：

变色龙哈希算法可以实现数据编辑,为区块链提供了一种内容可控的方法。然而,一旦参与者获得编辑权限,就可以重写任何内容,且不会因其恶意行为受到惩罚。目前,大多数可编辑区块链方案只能对恶意用户进行惩罚,而没有考虑编辑者对区块链的恶意篡改,不能同时实现用户和编辑者双方的公平性。提出了一个支持恶意惩罚的公平可编辑区块链方案,有效约束编辑者权限并惩罚其恶意行为,以保证可编辑区块链方案的公平性。在所提方案中,使用具有短期陷门的变色龙哈希,编辑者和用户必须合作完成区块链的编辑,有效约束了编辑者的权限。基于秘密共享和签名方案提出针对恶意编辑者的惩罚机制,惩罚编辑者的恶意篡改行为,并能抵抗用户的恶意举报。理论和实验分析表明,所提方案不仅实现了区块链数据的抗碰撞性和语义安全性,以及用户与编辑者在数据编辑过程中的公平性,且与已有方案相比,计算代价更小,随着编辑次数的增大,优势也愈加明显,更具有实际应用价值。

关键词: 可编辑区块链, 变色龙哈希, 短期陷门, 秘密共享

Abstract:

The chameleon hash algorithm that can realize data editing provides a content controllable method for blockchain.However,once a participant obtains permission to edit the data,he can rewrite anything without being punished for his malicious behavior.At present,most redactable blockchain schemes can only punish malicious users without considering the malicious tampering of the blockchain by editors,which cannot realize the fairness of both users and editors at the same time.A fair and redactable blockchain scheme that supports malicious punishment is proposed,which ensures the fairness of the redactable blockchain scheme by effectively restricting the rights of editors and punishing their malicious behaviors.In the proposed scheme,the chameleon hash with a short-term trapdoor is used,so that editors and users must cooperate to complete the editing of the blockchain,which effectively restricts the rights of editors.Based on the secret sharing and signature schemes,a punishment mechanism for malicious editors is proposed to punish the malicious tampering behavior of editors and resist the malicious reports of users.Theoretical and experimental analysis shows that the proposed scheme not only realizes the collision-resistance and semantic security of blockchain data,as well as the fairness of users and editors in the data editing process,but also has a lower computational cost than existing schemes.In addition,the advantages of the proposed scheme become more obvious with the increase in the number of editing times,so it is of more practical application value.

Key words: redactable blockchain, chameleon hash, ephemeral trapdoor, secret sharing

中图分类号:

TP309

任艳丽,翟梦娟,胡明琪. 支持恶意惩罚的公平可编辑区块链方案[J]. 西安电子科技大学学报, 2023, 50(1): 203-212.

REN Yanli,ZHAI Mengjuan,HU Mingqi. Fair redactable blockchain supporting malicious punishment[J]. Journal of Xidian University, 2023, 50(1): 203-212.

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文献	抗碰撞性	语义安全性	监督恶意行为	支持恶意惩罚	抵抗恶意举报
文献[8]	√	√	×	×	×
文献[12]	√	√	√	×	×
文献[13]	√	√	√	√	×
文中方案	√	√	√	√	√

算法	密钥长度/bit
算法	192	256	384	512
系统设置	3.11	3.07	3.06	3.09
编辑者设置	59.60	62.41	65.51	69.62
用户设置	1.19	1.20	1.19	1.19
令牌密钥生成	0.58	0.58	0.59	0.59
哈希运算	2.80	2.80	2.79	2.81
哈希碰撞	1.64	2.10	3.37	5.63
原始数据验证	33.35	33.64	36.27	41.69
编辑数据验证	3.78	3.78	3.79	3.83
恶意举报	28.95	38.43	48.04	58.85
总运行时间	135.00	148.02	164.61	187.30

算法	k=32		k=64
算法	文中方案	文献[13]	文中方案	文献[13]
系统设置	3.13	2.47	3.16	2.35
编辑者设置	36.85	85.03	60.63	158.81
用户设置	1.22	0.43	1.23	0.45
令牌密钥生成	0.53	0.69	0.61	0.99
哈希运算	2.86	2.09	2.86	2.13
哈希碰撞	1.67	4.84	1.68	4.91
原始数据验证	34.15	33.21	34.03	33.99
编辑数据验证	3.89	3.12	3.87	3.17
恶意举报	29.39	3.01	29.21	3.05
总运行时间	113.69	134.89	137.28	209.85