Computer security has become a central focus in the information age. Though enormous effort has been expended on ensuring secure computation, software exploitation remains a serious threat. The software attack surface provides many avenues for hijacking; however, most exploits ultimately rely on the successful execution of a control-flow attack. This pervasive diversion of control flow is made possible by the pollution of control flow structure with attacker-injected runtime data.Many control-flow attacks persist because the root of the problem remains: runtime data is allowed to enter the program counter. In this paper, we propose a novel approach: Control-Data Isolation. Our approach provides protection by going to the root of the problem and removing all of the operations that inject runtime data into program control. While previous work relies on CFG edge checking and labeling, these techniques remain vulnerable to attacks such as heap spray, read, or GOT attacks and in some cases suffer high overheads. Rather than addressing control-flow attacks by layering additional complexity, our work takes a subtractive approach; subtracting the primary cause of contemporary control-flow attacks. We demonstrate that control-data isolation can assure the integrity of the programmer's CFG at runtime, while incurring average performance overheads of less than 7% for a wide range of benchmarks.
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