[Resource Topic] 2023/1903: Quarantined-TreeKEM: a Continuous Group Key Agreement for MLS, Secure in Presence of Inactive Users

Welcome to the resource topic for 2023/1903

Title:
Quarantined-TreeKEM: a Continuous Group Key Agreement for MLS, Secure in Presence of Inactive Users

Authors: Céline Chevalier, Guirec Lebrun, Ange Martinelli

Abstract:

The recently standardized secure group messaging protocol “Messaging Layer Security” (MLS) is designed to ensure asynchronous communications within large groups, with an almost-optimal communication cost and the same security level as point-to-point secure messaging protocols such as “Signal”. In particular, the core sub-protocol of MLS, a Continuous Group Key Agreement (CGKA) called TreeKEM, must generate a common group key that respects the fundamental security properties of “post-compromise security” and “forward secrecy” which mitigate the effects of user corruption over time.

Most research on CGKAs has focused on how to improve these two security properties. However, post-compromise security and forward secrecy require the active participation of respectively all compromised users and all users within the group. Inactive users – who remain offline for long periods – do not update anymore their encryption keys and therefore represent a vulnerability for the entire group. This issue has already been identified in the MLS standard, but no solution, other than expelling these inactive users after some disconnection time, has been found.

We propose here a CGKA protocol based on TreeKEM and fully compatible with the MLS standard, that implements a “quarantine” mechanism for the inactive users in order to mitigate the risk induced by these users without removing them from the group. That mechanism indeed updates the inactive users’ encryption keys on their behalf and secures these keys with a secret sharing scheme. If some of the inactive users eventually reconnect, their quarantine stops and they are able to recover all the messages that were exchanged during their offline period. Our “Quarantined-TreeKEM” protocol thus offers a good trade-off between security and functionality, with a very limited – and sometimes negative – communication overhead.

ePrint: https://eprint.iacr.org/2023/1903

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