Identity-Based Encryption Secure against Selective Opening Chosen-Ciphertext Attack
Security against selective opening attack (SOA) requires that in a multi-user setting, even if an adversary has access to all ciphertexts from users, and adaptively corrupts some fraction of the users by exposing not only their messages but also the random coins, the remaining unopened messages reta...
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2014
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sg-smu-ink.sis_research-36052022-02-16T09:09:26Z Identity-Based Encryption Secure against Selective Opening Chosen-Ciphertext Attack Lai, Junzuo DENG, Robert H. Liu, Shengli Weng, Jian Zhao, Yunlei Security against selective opening attack (SOA) requires that in a multi-user setting, even if an adversary has access to all ciphertexts from users, and adaptively corrupts some fraction of the users by exposing not only their messages but also the random coins, the remaining unopened messages retain their privacy. Recently, Bellare, Waters and Yilek considered SOA-security in the identity-based setting, and presented the first identity-based encryption (IBE) schemes that are proven secure against selective opening chosen plaintext attack (SO-CPA). However, how to achieve SO-CCA security for IBE is still open. In this paper, we introduce a new primitive called extractable IBE and define its IND-ID-CCA security notion. We present a generic construction of SO-CCA secure IBE from an IND-ID-CCA secure extractable IBE with “One-Sided Public Openability”(1SPO), a collision-resistant hash function and a strengthened cross-authentication code. Finally, we propose two concrete constructions of extractable 1SPO-IBE schemes, resulting in the first simulation-based SO-CCA secure IBE schemes without random oracles. 2014-05-01T07:00:00Z text application/pdf https://ink.library.smu.edu.sg/sis_research/2605 info:doi/10.1007/978-3-642-55220-5_5 https://ink.library.smu.edu.sg/context/sis_research/article/3605/viewcontent/Lai2014_Chapter_Identity_BasedEncryptionSecure_pv.pdf http://creativecommons.org/licenses/by-nc-nd/4.0/ Research Collection School Of Computing and Information Systems eng Institutional Knowledge at Singapore Management University identity-based encryption chosen ciphertext security selective opening security Information Security |
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identity-based encryption chosen ciphertext security selective opening security Information Security |
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identity-based encryption chosen ciphertext security selective opening security Information Security Lai, Junzuo DENG, Robert H. Liu, Shengli Weng, Jian Zhao, Yunlei Identity-Based Encryption Secure against Selective Opening Chosen-Ciphertext Attack |
| description |
Security against selective opening attack (SOA) requires that in a multi-user setting, even if an adversary has access to all ciphertexts from users, and adaptively corrupts some fraction of the users by exposing not only their messages but also the random coins, the remaining unopened messages retain their privacy. Recently, Bellare, Waters and Yilek considered SOA-security in the identity-based setting, and presented the first identity-based encryption (IBE) schemes that are proven secure against selective opening chosen plaintext attack (SO-CPA). However, how to achieve SO-CCA security for IBE is still open. In this paper, we introduce a new primitive called extractable IBE and define its IND-ID-CCA security notion. We present a generic construction of SO-CCA secure IBE from an IND-ID-CCA secure extractable IBE with “One-Sided Public Openability”(1SPO), a collision-resistant hash function and a strengthened cross-authentication code. Finally, we propose two concrete constructions of extractable 1SPO-IBE schemes, resulting in the first simulation-based SO-CCA secure IBE schemes without random oracles. |
| format |
text |
| author |
Lai, Junzuo DENG, Robert H. Liu, Shengli Weng, Jian Zhao, Yunlei |
| author_facet |
Lai, Junzuo DENG, Robert H. Liu, Shengli Weng, Jian Zhao, Yunlei |
| author_sort |
Lai, Junzuo |
| title |
Identity-Based Encryption Secure against Selective Opening Chosen-Ciphertext Attack |
| title_short |
Identity-Based Encryption Secure against Selective Opening Chosen-Ciphertext Attack |
| title_full |
Identity-Based Encryption Secure against Selective Opening Chosen-Ciphertext Attack |
| title_fullStr |
Identity-Based Encryption Secure against Selective Opening Chosen-Ciphertext Attack |
| title_full_unstemmed |
Identity-Based Encryption Secure against Selective Opening Chosen-Ciphertext Attack |
| title_sort |
identity-based encryption secure against selective opening chosen-ciphertext attack |
| publisher |
Institutional Knowledge at Singapore Management University |
| publishDate |
2014 |
| url |
https://ink.library.smu.edu.sg/sis_research/2605 https://ink.library.smu.edu.sg/context/sis_research/article/3605/viewcontent/Lai2014_Chapter_Identity_BasedEncryptionSecure_pv.pdf |
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