Paper Detail

MESA: Prioritizing Vulnerable Communication Channels for Securing Multi-Agent Systems

Kunyang Li, Kyle Domico, Jonathan Gregory, Patrick McDaniel

arxiv Score 8.8

Published 2026-06-29 · First seen 2026-06-30

General AI

Abstract

Multi-agent systems (MAS) are increasingly used to automate complex, distributed workflows. However, their inter-agent communication channels introduce new attack surfaces that remain poorly understood and are difficult to defend against. In this paper, we address how defenders should prioritize limited security effort to protect vulnerable communication channels before attacks are observed. This is motivated by our observation that the channel-level attack impact is highly non-uniform: a single compromised edge can account for up to 75% of total attack success. We introduce Mesa, a label-free framework for proactively ranking which MAS edges are most security-critical -- that is, most likely to affect the system's decision if compromised. Mesa combines six graph-theoretic metrics and two dynamic probes (ablation and masking) without requiring attack traces. We evaluate Mesa against a dynamic misinformation attack pipeline across three diverse MAS scenarios, eight network topologies, and five open-source LLMs from Qwen, Llama, and Gemma families. Mesa rankings correlate strongly with empirical per-edge attack success rate, achieving mean Spearman $ρ=+0.60$ (peaking at $+0.73$). In resource-constrained defense deployment, monitoring the top 10% of Mesa-ranked edges intercepts about 3x the successful attacks as random allocation. We further test Mesa under varying attacker and defender models and LangGraph workflows and characterize its limits under adaptive attacks and high-redundancy graphs. Overall, our results show that edge-level risk in MAS is often concentrated and predictable, allowing proactive hardening of multi-agent infrastructures.

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BibTeX

@article{li2026mesa,
  title = {MESA: Prioritizing Vulnerable Communication Channels for Securing Multi-Agent Systems},
  author = {Kunyang Li and Kyle Domico and Jonathan Gregory and Patrick McDaniel},
  year = {2026},
  abstract = {Multi-agent systems (MAS) are increasingly used to automate complex, distributed workflows. However, their inter-agent communication channels introduce new attack surfaces that remain poorly understood and are difficult to defend against. In this paper, we address how defenders should prioritize limited security effort to protect vulnerable communication channels before attacks are observed. This is motivated by our observation that the channel-level attack impact is highly non-uniform: a single},
  url = {https://arxiv.org/abs/2606.30602},
  keywords = {cs.CR, cs.AI},
  eprint = {2606.30602},
  archiveprefix = {arXiv},
}

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