偏见:蓝牙模拟攻击

D. Antonioli, Nils Ole Tippenhauer
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引用次数: 60

摘要

蓝牙(BR/EDR)是一种普及的无线通信技术,被数十亿台设备所使用。蓝牙标准包括遗留身份验证过程和安全身份验证过程,允许设备使用长期密钥对彼此进行身份验证。这些过程在配对和安全连接建立过程中使用,以防止模拟攻击。在本文中,我们展示了蓝牙规范包含允许在安全连接建立期间执行模拟攻击的漏洞。这些漏洞包括缺乏强制性的相互身份验证、过于宽松的角色切换以及身份验证过程降级。我们详细描述了每个漏洞,并利用它们来设计、实现和评估针对遗留身份验证过程和安全身份验证过程的主从模拟攻击。我们将这种攻击称为蓝牙模拟攻击(BIAS)。我们的攻击是符合标准的,因此对任何符合标准的蓝牙设备都有效,无论蓝牙版本、安全模式(例如,安全连接)、设备制造商和实现细节如何。我们的攻击是隐蔽的,因为蓝牙标准不需要通知最终用户身份验证过程的结果,或者缺乏相互身份验证。为了证实BIAS攻击是可行的,我们成功地对来自主要硬件和软件供应商的31个蓝牙设备(28个独特的蓝牙芯片)进行了攻击,实现了所有主要的蓝牙版本,包括苹果、高通、英特尔、赛普拉斯、博通、三星和CSR。
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BIAS: Bluetooth Impersonation AttackS
Bluetooth (BR/EDR) is a pervasive technology for wireless communication used by billions of devices. The Bluetooth standard includes a legacy authentication procedure and a secure authentication procedure, allowing devices to authenticate to each other using a long term key. Those procedures are used during pairing and secure connection establishment to prevent impersonation attacks. In this paper, we show that the Bluetooth specification contains vulnerabilities enabling to perform impersonation attacks during secure connection establishment. Such vulnerabilities include the lack of mandatory mutual authentication, overly permissive role switching, and an authentication procedure downgrade. We describe each vulnerability in detail, and we exploit them to design, implement, and evaluate master and slave impersonation attacks on both the legacy authentication procedure and the secure authentication procedure. We refer to our attacks as Bluetooth Impersonation AttackS (BIAS).Our attacks are standard compliant, and are therefore effective against any standard compliant Bluetooth device regardless the Bluetooth version, the security mode (e.g., Secure Connections), the device manufacturer, and the implementation details. Our attacks are stealthy because the Bluetooth standard does not require to notify end users about the outcome of an authentication procedure, or the lack of mutual authentication. To confirm that the BIAS attacks are practical, we successfully conduct them against 31 Bluetooth devices (28 unique Bluetooth chips) from major hardware and software vendors, implementing all the major Bluetooth versions, including Apple, Qualcomm, Intel, Cypress, Broadcom, Samsung, and CSR.
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