RansoGuard: A RNN-based framework leveraging pre-attack sensitive APIs for early ransomware detection

Abstract

Ransomware has emerged as a significant security threat in cyberspace, inflicting severe economic losses and privacy breaches on individual users and organizations. Ransomware typically encrypts critical user files and demands a ransom for decryption. Traditional signature-based defense methods effectively identify known ransomware but perform poorly when confronting unknown zero-day attacks. Addressing this challenge, a ransomware detection framework called ‘RansoGuard’ is proposed. This framework aims to achieve timely identification and defense against ransomware by capturing and analyzing the sensitive Application Programming Interface (API) call behavior exhibited before the encryption attack is launched. A real-world ransomware sample dataset was constructed. The dynamic behavioral data during the pre-attack stage was analyzed, and natural language processing techniques were used to represent and extract key features from API call sequences. A Recurrent Neural Network (RNN) classifier was trained on these features to distinguish ransomware from benign software. Experimental results demonstrate that the RansoGuard framework exhibits outstanding early ransomware detection performance across different datasets, achieving a recall of 96.18% and an accuracy of 94.26%. Furthermore, it exhibits robustness in effectively countering zero-day attacks.