Abstract
Identity-based encryption(IBE) is a public key cryptosystem(encoding and decoding) and eliminates the demands of public key infrastructure(PKI) and certificate administration in conventional public key settings. Due to the absence of PKI, the revocation problem is a critical issue in IBE settings. Several revocable IBE schemes have been proposed regarding this issue. Quite recently, by embedding an outsourcing computation technique into IBE, a revocable IBE scheme with a key-update cloud service provider (KU-CSP) was proposed.However, their scheme has two shortcomings. One is that the computation and communication costs are higher than previous revocable IBE schemes. The other shortcoming is lack of scalability in the sense that the KU-CSP must keep a secret value for each user. In the article, we propose a new revocable IBE scheme with a cloud revocation authority (CRA) to solve the two shortcomings namely, the performance is significantly improved and the CRA holds only a system secret for all the users. For security analysis, we demonstrate that the proposed scheme is semantically secure under the decisional bilinear Diffie-Hellman (DBDH) assumption. Finally,we extend the proposed revocable IBE scheme to present a CRA-aided authentication scheme with period-limited privileges for managing a large number of various cloud services.
Highlights
1.1.Existing SystemThe PKG sends user the corresponding identity key via a secure channel
The KU-CSP generates the current time update key of a user by using the associated time key and sends it to the user via a public channel outsourcing computation technique into Identity-based encryption (IBE) to propose a revocable IBE scheme with a key-update cloud service provider (KU-CSP). They shifts the keyupdate procedures to a KU-CSP to alleviate the load of PKG
Existing scheme used the similar technique adopted in Tseng and Tsai’s scheme, which partitions a user’s private key into an identity key and a time update key
Summary
The PKG sends user the corresponding identity key via a secure channel. The KU-CSP generates the current time update key of a user by using the associated time key and sends it to the user via a public channel outsourcing computation technique into IBE to propose a revocable IBE scheme with a key-update cloud service provider (KU-CSP). They shifts the keyupdate procedures to a KU-CSP to alleviate the load of PKG. Existing scheme used the similar technique adopted in Tseng and Tsai’s scheme, which partitions a user’s private key into an identity key and a time update key. The other shortcoming is un-scalability in the sense that the KU- CSP must keep a time key for each user so that it will incur the management load
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