Fusion: Efficient and Secure Inference Resilient to Malicious Server and Curious Clients
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In secure machine learning inference, most current schemes assume that the server is semi-honest and honestly follows the protocol but attempts to infer additional information. However, in real-world scenarios, the server may behave maliciously, e.g., using low-quality model parameters as inputs or deviating from the protocol. Although a few studies consider the security against the malicious server, they do not guarantee the model accuracy while preserving the privacy of both server's model and the client's inputs. Furthermore, a curious client may perform model extraction attacks to steal the server's model. To address these issues, we propose Fusion, an efficient and privacy-preserving inference scheme that is secure against the malicious server, and a curious client who may perform model extraction attacks. Without leveraging expensive cryptographic techniques, a novel mix-and-check method is designed to ensure that the server uses a well-trained model as input and correctly performs the inference computations. On the basis of this method, Fusion can be used as a general compiler for converting any semi-honest inference scheme into a maliciously secure one. The experimental results indicate that Fusion is 93.51× faster and uses 30.90× less communication than the existing maliciously secure inference protocol. We conduct ImageNet-scale inference on practical ResNet50 model and it costs less than 5.5 minutes and 10.117 Gb of communication, which only brings additional 29 CrypTFlow2. Moreover, Fusion mitigates the client's model extraction attacks, e.g., degrading the accuracy of the stolen model by up to 42.7 maintaining the utility of the server's model.
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