CLIOPATRA: Extracting Private Information from LLM Insights
This work exposes critical privacy risks in widely used AI platforms, highlighting insufficient protections for user data, and is incremental as it tests existing claims rather than proposing new defenses.
The paper tackles the problem of privacy vulnerabilities in AI assistant insight systems by presenting CLIOPATRA, a privacy attack that extracts sensitive information from target users' chats, achieving a 39% success rate in extracting medical history with minimal adversary knowledge and up to 100% with enhanced knowledge.
As AI assistants become widely used, privacy-aware platforms like Anthropic's Clio have been introduced to generate insights from real-world AI use. Clio's privacy protections rely on layering multiple heuristic techniques together, including PII redaction, clustering, filtering, and LLM-based privacy auditing. In this paper, we put these claims to the test by presenting CLIOPATRA, the first privacy attack against "privacy-preserving" LLM insight systems. The attack involves a realistic adversary that carefully designs and inserts malicious chats into the system to break multiple layers of privacy protections and induce the leakage of sensitive information from a target user's chat. We evaluated CLIOPATRA on synthetically generated medical target chats, demonstrating that an adversary who knows only the basic demographics of a target user and a single symptom can successfully extract the user's medical history in 39% of cases by just inspecting Clio's output. Furthermore, CLIOPATRA can reach close to 100% when Clio is configured with other state-of-the-art models and the adversary's knowledge of the target user is increased. We also show that existing ad hoc mitigations, such as LLM-based privacy auditing, are unreliable and fail to detect major leaks. Our findings indicate that even when layered, current heuristic protections are insufficient to adequately protect user data in LLM-based analysis systems.