Biblio

With the widespread application of power Internet of Things (IoT), the edge IoT agents are often threatened by various attacks, among which the white-box attack is the most serious. The white-box implementation of the cryptography algorithm can hide key information even in the white-box attack context by means of obfuscation. However, under the specially designed attack, there is still a risk of the information being recovered within a certain time complexity. In this paper, by introducing pseudo states, a new white-box implementation of SM4 algorithm is proposed. The encryption and decryption processes are implemented in the form of matrices and lookup tables, which are obfuscated by scrambling encodings. The introduction of pseudo states could complicate the obfuscation, leading to the great improvement in the security. The number of pseudo states can be changed according to the requirements of security. Through several quantitative indicators, including diversity, ambiguity, the time complexity required to extract the key and the value space of the key and external encodings, it is proved that the security of the proposed implementation could been enhanced significantly, compared with the existing schemes under similar memory occupation.

Security is the basic topic for the normal operation of the power Internet of Things, and its growing scale determines the trend of dynamic deployment and flexible expansion in the future to meet the ever-changing needs. While large-scale networks have a high cost of hardware resources, so the security protection of the ubiquitous power Internet of Things must be lightweight. In this paper, we propose to build a platform of power Internet of things based on SDN (Software Defined Network) technology and extend the openflow protocol by adding some types of actions and meters to achieve the purpose of on-demand monitoring, dynamic defense and flexible response. To achieve the purpose of lightweight protection, we take advantage of DFI(Deep Flow Inspection) technology to collect and analyze traffic in the Internet of Things, and form a security prevention and control strategy model suitable for the power Internet of Things, without in-depth detection of payload and without the influence of ciphertext.