ETSI releases ABE data encryption standards for 5G/IoT

ETSI encryption
Image credit: Blackboard /

ETSI announced that its Technical Committee on Cybersecurity has released two specifications on Attribute-Based Encryption (ABE), a key enabler technology for access control in highly distributed systems such as 5G and the IoT.

ABE is an asymmetric, multi-party cryptographic scheme that bundles access control with data encryption, and describes how to protect personal data securely with fine-grained access controls.

In such a system, data can only be decrypted if the set of attributes of the user key matches the attributes of the encryption. For instance, access to employee pay data will only be granted to the role of ‘human resources employee’ working in the payroll department of a company, who has been there for one year or more. Because ABE enforces access control at a cryptographic (mathematical) level, it provides better security assurance than software-based solutions. It is also space-efficient, since only one ciphertext is needed to cater for all access control needs of a given data set.

The two ABE specifications are:

  • ETSI TS 103 458, which describes high-level requirements for ABE. One objective is to provide user identity protection, preventing disclosure to an unauthorized entity. It defines personal data protection on IoT devices, WLAN, cloud and mobile services, where secure access to data has to be given to multiple parties, according to who that party is.
  • ETSI TS 103 532, which specifies trust models, functions and protocols using ABE to control access to data, thus increasing data security and privacy. It provides a cryptographic layer that supports both variants of ABE-Ciphertext Policy and Key Policy in various levels of security assurance. This flexibility in performance suits various forms of deployments, whether in the cloud, on a mobile network or in an IoT environment. The cryptographic layer is extensible and new schemes can be integrated in the standard to support future industry requirements and address data protection challenges in the post-quantum era.

Both specifications enable compliance with the General Data Protection Regulation (GDPR), in force since May 2018, by allowing secure exchange of personal data among data controllers and data processors.

ETSI says a standard using ABE has several advantages for the industry – it provides an efficient, secure-by-default access control mechanism for data protection that avoids binding access to a person’s name, but instead to pseudonymous or anonymous attributes.

ABE offers an interoperable, highly scalable mechanism for industrial scenarios where quick, offline access control is a must, and where operators need to access data both in a synchronous manner from the equipment as well as from a larger pool of data in the cloud. ETSI TS 103 532 is thus particularly well-suited to the Industrial IoT and the public sector alike. As it enables access control policies to be introduced after data has been protected, it provides forward-compatibility with future business and legal requirements, such as the introduction of new stakeholders, and support for social benefit schemes.

Be the first to comment

What do you think?

This site uses Akismet to reduce spam. Learn how your comment data is processed.