BlueSuffix: Reinforced Blue Teaming for Vision-Language Models Against Jailbreak Attacks
This addresses security vulnerabilities in VLMs for users deploying them in safety-critical applications, representing an incremental improvement over existing black-box defense methods.
The paper tackles the problem of defending vision-language models (VLMs) against jailbreak attacks in a black-box setting, proposing BlueSuffix, which includes visual and textual purifiers and a reinforcement fine-tuned suffix generator, and shows it outperforms baseline defenses on four VLMs and four safety benchmarks.
In this paper, we focus on black-box defense for VLMs against jailbreak attacks. Existing black-box defense methods are either unimodal or bimodal. Unimodal methods enhance either the vision or language module of the VLM, while bimodal methods robustify the model through text-image representation realignment. However, these methods suffer from two limitations: 1) they fail to fully exploit the cross-modal information, or 2) they degrade the model performance on benign inputs. To address these limitations, we propose a novel blue-team method BlueSuffix that defends target VLMs against jailbreak attacks without compromising its performance under black-box setting. BlueSuffix includes three key components: 1) a visual purifier against jailbreak images, 2) a textual purifier against jailbreak texts, and 3) a blue-team suffix generator using reinforcement fine-tuning for enhancing cross-modal robustness. We empirically show on four VLMs (LLaVA, MiniGPT-4, InstructionBLIP, and Gemini) and four safety benchmarks (Harmful Instruction, AdvBench, MM-SafetyBench, and RedTeam-2K) that BlueSuffix outperforms the baseline defenses by a significant margin. Our BlueSuffix opens up a promising direction for defending VLMs against jailbreak attacks. Code is available at https://github.com/Vinsonzyh/BlueSuffix.