Genos: General In-Network Unsupervised Intrusion Detection by Rule Extraction
CoRR(2024)
Abstract
Anomaly-based network intrusion detection systems (A-NIDS) use unsupervised
models to detect unforeseen attacks. However, existing A-NIDS solutions suffer
from low throughput, lack of interpretability, and high maintenance costs.
Recent in-network intelligence (INI) exploits programmable switches to offer
line-rate deployment of NIDS. Nevertheless, current in-network NIDS are either
model-specific or only apply to supervised models. In this paper, we propose
Genos, a general in-network framework for unsupervised A-NIDS by rule
extraction, which consists of a Model Compiler, a Model Interpreter, and a
Model Debugger. Specifically, observing benign data are multimodal and usually
located in multiple subspaces in the feature space, we utilize a
divide-and-conquer approach for model-agnostic rule extraction. In the Model
Compiler, we first propose a tree-based clustering algorithm to partition the
feature space into subspaces, then design a decision boundary estimation
mechanism to approximate the source model in each subspace. The Model
Interpreter interprets predictions by important attributes to aid network
operators in understanding the predictions. The Model Debugger conducts
incremental updating to rectify errors by only fine-tuning rules on affected
subspaces, thus reducing maintenance costs. We implement a prototype using
physical hardware, and experiments demonstrate its superior performance of 100
Gbps throughput, great interpretability, and trivial updating overhead.
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