[Resource Topic] 2023/329: Caveat Implementor! Key Recovery Attacks on MEGA

Welcome to the resource topic for 2023/329

Title:
Caveat Implementor! Key Recovery Attacks on MEGA

Authors: Martin R. Albrecht, Miro Haller, Lenka Mareková, Kenneth G. Paterson

Abstract:

MEGA is a large-scale cloud storage and communication platform that aims to provide end-to-end encryption for stored data. A recent analysis by Backendal, Haller and Paterson (IEEE S&P 2023) invalidated these security claims by presenting practical attacks against MEGA that could be mounted by the MEGA service provider. In response, the MEGA developers added lightweight sanity checks on the user RSA private keys used in MEGA, sufficient to prevent the previous attacks.

We analyse these new sanity checks and show how they themselves can be exploited to mount novel attacks on MEGA that recover a target user’s RSA private key with only slightly higher attack complexity than the original attacks. We identify the presence of an ECB encryption oracle under a target user’s master key in the MEGA system; this oracle provides our adversary with the ability to partially overwrite a target user’s RSA private key with chosen data, a powerful capability that we use in our attacks. We then present two distinct types of attack, each type exploiting different error conditions arising in the sanity checks and in subsequent cryptographic processing during MEGA’s user authentication procedure. The first type appears to be novel and exploits the manner in which the MEGA code handles modular inversion when recomputing u = q^{-1} \bmod p. The second can be viewed as a small subgroup attack (van Oorschot and Wiener, EUROCRYPT 1996, Lim and Lee, CRYPTO 1998). We prototype the attacks and show that they work in practice.

As a side contribution, we show how to improve the RSA key recovery attack of Backendal-Haller-Paterson against the unpatched version of MEGA to require only 2 logins instead of the original 512.

We conclude by discussing wider lessons about secure implementation of cryptography that our work surfaces.

ePrint: https://eprint.iacr.org/2023/329

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