Abstract
Achieving data integrity verification for large-scale IoT data in cloud storage safely and efficiently has become one of the hot topics with further applications of Internet of Things. Traditional data integrity verification methods generally use encryption techniques to protect data in the cloud, relying on trusted Third Party Auditors (TPAs). Blockchain based data integrity schemes can successfully avoid the trust problem of TPAs, however, they have to face the problems of large computational and communication overhead. To address the issues above, we propose a Blockchain and Bilinear mapping based Data Integrity Scheme (BB-DIS) for large-scale IoT data. In our BB-DIS, IoT data is sliced into shards and homomorphic verifiable tags (HVTs) are generated for sampling verification. Data integrity can be achieved according to the characteristics of bilinear mapping in the form of blockchain transactions. Performance analysis of BB-DIS including feasibility, security, dynamicity and complexity is also discussed in detail. A prototype system of BB-DIS is then presented to illustrate how to implement our verification scheme. Experimental results based on Hyperledger Fabric demonstrate that the proposed verification scheme significantly improves the efficiency of integrity verification for large-scale IoT data with no need of TPAs.
Highlights
With the wide popularity of Internet of Things (IoT) technologies such as smart cities, autonomous vehicles and smart grids, the number of devices connected to the Internet is rising overwhelmingly
We set up an edge device based stream data processing structure near the data collection layer, and process the corresponding source data to generate the metadata set as the IoT data collection
We create a blockchain network on Hyperledger Fabric to provide a trusted environment for data integrity verification
Summary
School of Computer Science, Nanjing University of Posts and Telecommunications, Nanjing 21003, China Jiangsu Key Laboratory of Big Data Security and Intelligent Processing, Nanjing 210023, China Jiangsu High Technology Research Key Laboratory for Wireless Sensor Networks, Nanjing 210023, China This work was supported in part by the National Natural Science Foundation of China under Grant 61772285, and in part by the Jiangsu Key Laboratory of Big Data Security and Intelligent Processing.
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