Protecting Information Stored Inside the Cloud with A New CCA-EBO Protocol Designed on Hive Technology

Abstract

Massively scalable facilities may be accessed online with ease due to "Cloud Computing (CC)". The CC resources are primarily characterized by the fact that "Cloud User (CU)" information is often kept on "Cloud Server (CS)" that the CU doesn't even possess or control. The CUs' apprehension about the loss of management of their information may lead to a substantial roadblock in their acceptance of CC offerings. In an attempt to highlight the effectiveness of CC security, the "Cloud Service Providers (CSP)" need to empower the CU to control and evaluate their data. The focus of this research chooses to highlight a key aspect of CC platforms employed to handle CU information on unrecognized CSs at remote locations. Concerns about compromising personal information arise from this feature's importance. In this research, a novel swarm-based "Enhanced BAT Optimization (EBO)" for key generating in "Cloud Computing Accountability (CCA)" for CC information tracking is proposed to solve security issues. Generally, this proposed hybrid CCA-EBO architecture is based on the idea of data accountability, which enables dispersed end-to-end responsibility. The information is made available to the general public, although with a limited set of permissions. The "Cloud Administrator (CA)" would specify the level of access each CU has to the data before it is made available to them. All CU accesses to data are recorded and will be found in a log file for CA to review. According to evaluation methods for the proposed CCA-EBO, existing "Hybrid Secure Cloud Storage (HSCS)", and "Advanced Distribution Verification Protocol (ADVP)", the CCA-EBO provides more security than HSCS, and ADVP in terms of "Auditing Time", "Encryption Time", "Decryption Time", and "Storage Overhead".