A blockchain-based secure searching strategy for metadata in mobile edge computing

With intelligent devices' prevalence, mobile edge computing (MEC) technology can effectively process the massive data in the Internet of Things (IoT). The metadata produced in MEC plays a role in colossal data management. However, it also includes lots of user privacy information. Traditional privacy protection solutions sacrifice the metadata's availability or are incompatible with the distributed environment. To overcome this dilemma, we propose a blockchain-based secure searching strategy for metadata (BSSMeta) in MEC. By leveraging a lightweight proxy re-encryption scheme and a decentralized key generation method on the blockchain, BSSMeta keeps the security of the metadata searching tasks. Meanwhile, a main/secondary smart contract method and a buffer uploading strategy are proposed for the efficiency of the searching and uploading processes. As a byproduct, BSSMeta also supports searching metadata in a multiuser environment and gives users access control to metadata. Finally, we provide a security analysis of BSSMeta and implement a prototype on the Hyperledger Fabric platform. The results of experiments on various workloads show that BSSMeta is feasible and flexible in security and efficiency.