Eliminating Label Leakage in Tree-Based Vertical Federated Learning

Vertical federated learning (VFL) enables multiple parties with disjoint features of a common user set to train a machine learning model without sharing their private data. Tree-based models have become prevalent in VFL due to their interpretability and efficiency. However, the vulnerability of tree-based VFL has not been sufficiently investigated. In this study, we first introduce a novel label inference attack, ID2Graph, which utilizes the sets of record-IDs assigned to each node (i.e., instance space) to deduce private training labels. The ID2Graph attack generates a graph structure from training samples, extracts communities from the graph, and clusters the local dataset using community information. To counteract label leakage from the instance space, we propose an effective defense mechanism, ID-LMID, which prevents label leakage by focusing on mutual information regularization. Comprehensive experiments conducted on various datasets reveal that the ID2Graph attack presents significant risks to tree-based models such as Random Forest and XGBoost. Further evaluations on these benchmarks demonstrate that ID-LMID effectively mitigates label leakage in such instances.