幕后信息泄露:滥用防电磁干扰特性进行隐蔽通信

2016 IEEE International Symposium on Hardware Oriented Security and Trust (HOST) Pub Date : 2016-05-03 DOI:10.1109/HST.2016.7495570

Johannes Bauer, Sebastian Schinzel, F. Freiling, Andreas Dewald

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引用次数: 3

摘要

我们提出了一类新的隐蔽信道，它可以利用普通硬件创建，但不能被检测到。我们的想法是滥用处理器的抗emi特性，在物理层上创建隐蔽通道。因此，发送方在如何通过模拟信道对数字信号进行编码时使用不变量来隐蔽地传输信息。这些泄露的数据存在于受损设备的电线绑定连接上，但根据定义，也存在于设备附近，可以被无线电设备拾取。由于隐蔽信道仅存在于物理层，因此上述所有层上的数据以及这些层上的定时行为与未受损害的设备无法区分。

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Information leakage behind the curtain: Abusing anti-EMI features for covert communication

We present a new class of covert channels which can be created by utilizing common hardware but that cannot be detected by such. Our idea is to abuse anti-EMI features of a processor to create a covert channel on the physical layer. Thus, the sender uses the invariants in how digital signals are encoded over analog channels to covertly transport information. This leaked data is present on the wire bound connections of the compromised device, but is also by definition present in the vicinity of the device and can be picked up by radio equipment. As the covert channel is present only on the physical layer, the data on all layers above, as well as the timing behavior on those layers is indistinguishable from uncompromised devices.

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2016 IEEE International Symposium on Hardware Oriented Security and Trust (HOST)

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