Redactable blockchain in decentralized setting
Immutability has been widely accepted as a fundamental property protecting the security of blockchain technology. However, this property impedes the development of blockchain because of the abuse of blockchain storage and legal obligations. To mitigate this issue, a novel construction of blockchain,...
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2022
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sg-smu-ink.sis_research-82512022-09-02T06:06:02Z Redactable blockchain in decentralized setting MA, Jinhua XU, Shengmin NING, Jianting HUANG, Xinyi DENG, Robert H. Immutability has been widely accepted as a fundamental property protecting the security of blockchain technology. However, this property impedes the development of blockchain because of the abuse of blockchain storage and legal obligations. To mitigate this issue, a novel construction of blockchain, called redactable blockchain, was introduced. It enables a central authority to issue the rewriting privilege to a particular party who can rewrite a registered object, e.g., a block or a transaction, in a controlled way. Unfortunately, the central authority must be fully trusted and is an obvious target suffering from various attacks. In this paper, we introduce a redactable blockchain controlled at a fine-grained level in a decentralized setting. In our solution, the rewriting privilege is issued by multiple authorities for reducing the vulnerability of the centralized setting. To formalize our solution, we introduce a novel cryptographic notion, called decentralized policy-based chameleon hash (DPCH), with the formal definition and security model. By applying several simple cryptographic tools, such as chameleon hash, digital signature, and multi-authority attribute-based encryption, we present the generic construction of DPCH along with rigorous security proofs. By applying RSA-based chameleon hash and BLS short signature, we give a practical instantiation of DPCH with performance evaluation. The comprehensive evaluation shows that our solution has superior performance than the state-of-the-art solution. 2022-01-01T08:00:00Z text https://ink.library.smu.edu.sg/sis_research/7248 info:doi/10.1109/TIFS.2022.3156808 Research Collection School Of Computing and Information Systems eng Institutional Knowledge at Singapore Management University Blockchains Security Digital signatures Encryption Probabilistic logic Network security Computer crime Chameleon hash redactable blockchain decentralized blockchain rewriting Information Security |
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Blockchains Security Digital signatures Encryption Probabilistic logic Network security Computer crime Chameleon hash redactable blockchain decentralized blockchain rewriting Information Security |
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Blockchains Security Digital signatures Encryption Probabilistic logic Network security Computer crime Chameleon hash redactable blockchain decentralized blockchain rewriting Information Security MA, Jinhua XU, Shengmin NING, Jianting HUANG, Xinyi DENG, Robert H. Redactable blockchain in decentralized setting |
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Immutability has been widely accepted as a fundamental property protecting the security of blockchain technology. However, this property impedes the development of blockchain because of the abuse of blockchain storage and legal obligations. To mitigate this issue, a novel construction of blockchain, called redactable blockchain, was introduced. It enables a central authority to issue the rewriting privilege to a particular party who can rewrite a registered object, e.g., a block or a transaction, in a controlled way. Unfortunately, the central authority must be fully trusted and is an obvious target suffering from various attacks. In this paper, we introduce a redactable blockchain controlled at a fine-grained level in a decentralized setting. In our solution, the rewriting privilege is issued by multiple authorities for reducing the vulnerability of the centralized setting. To formalize our solution, we introduce a novel cryptographic notion, called decentralized policy-based chameleon hash (DPCH), with the formal definition and security model. By applying several simple cryptographic tools, such as chameleon hash, digital signature, and multi-authority attribute-based encryption, we present the generic construction of DPCH along with rigorous security proofs. By applying RSA-based chameleon hash and BLS short signature, we give a practical instantiation of DPCH with performance evaluation. The comprehensive evaluation shows that our solution has superior performance than the state-of-the-art solution. |
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text |
| author |
MA, Jinhua XU, Shengmin NING, Jianting HUANG, Xinyi DENG, Robert H. |
| author_facet |
MA, Jinhua XU, Shengmin NING, Jianting HUANG, Xinyi DENG, Robert H. |
| author_sort |
MA, Jinhua |
| title |
Redactable blockchain in decentralized setting |
| title_short |
Redactable blockchain in decentralized setting |
| title_full |
Redactable blockchain in decentralized setting |
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Redactable blockchain in decentralized setting |
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Redactable blockchain in decentralized setting |
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redactable blockchain in decentralized setting |
| publisher |
Institutional Knowledge at Singapore Management University |
| publishDate |
2022 |
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https://ink.library.smu.edu.sg/sis_research/7248 |
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