J.P. McGregor scite author profile

Abstract-Buffer overflow vulnerabilities in the memory stack continue to pose serious threats to network and computer security. By exploiting these vulnerabilities, a malicious party can strategically overwrite the return address of a procedure call, obtain control of a system, and subsequently launch more virulent attacks. Software countermeasures for such intrusions entail modifications to applications, compilers, and operating systems. Despite the availability of these defenses, many systems remain vulnerable to buffer overflow attacks.In this paper, we present a hardware-based solution that prevents buffer overflow attacks involving procedure return address corruption. We add a secure return address stack to the processor that provides built-in, dynamic protection against return address tampering without requiring any effort by users or application programmers. Also, the performance impact is negligible for most applications. Changes are not required of application source code, so both legacy and future software can enjoy the security benefits of this solution.

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Architecture for Protecting Critical Secrets in Microprocessors

Lee

Kwan

McGregor

et al. 2005

SIGARCH Comput. Archit. News

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Architectural enhancements for fast subword permutations with repetitions in cryptographic applications

McGregor

Lee²

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J.P. McGregor

Architecture for Protecting Critical Secrets in Microprocessors

Enlisting Hardware Architecture to Thwart Malicious Code Injection

A processor architecture defense against buffer overflow attacks

Architecture for Protecting Critical Secrets in Microprocessors

Architectural enhancements for fast subword permutations with repetitions in cryptographic applications

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