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引用次数: 17
摘要
组播认证方案需要满足的要求是报文真实性、丢包鲁棒性、丢失模型无关性和抗DoS (denial of service)。我们为实时流应用开发了一种高效的多播身份验证方案,该方案可以抵抗拒绝服务攻击,同时与之前提出的方案相比,在接收器上消耗更少的资源(CPU和缓冲区)。该方案利用基于擦除码和蒸馏码的预测哈希(PH)和单向密钥链(OKC)技术。与其他基于块的解决方案方法相比,PH和OKC技术使接收器能够显著降低CPU开销和缓冲区需求。分析表明,与最近提出的抗拒绝服务(DoS)组播认证方案——抗污染认证块流(PRABS) (Karlof et al., 2004)相比,这种新方案消耗的CPU时间和缓冲空间要少得多,缓冲需求是5倍以上,CPU需求是3倍以上。
Denial-of-service resistant multicast authentication protocol with prediction hashing and one-way key chain
Requirements that need to be met by multicast authentication schemes are packet authenticity, packet loss robustness, loss model independence, and denial of service (DoS) resistance. We develop an efficient multicast authentication scheme for real-time streaming applications that is resistant to denial-of-service attacks while consuming much less resources (CPU and buffer) at receivers compared to previously proposed schemes. This scheme utilizes prediction hashing (PH) and one-way key chain (OKC) techniques based on erasure codes and distillation codes. PH and OKC techniques enable the receiver to significantly reduce the CPU overhead and buffer requirements compared to other block-based solution approaches. Analysis conducted indicates that this new scheme consumes much less CPU time and buffer space than one of the recently proposed denial-of-service (DoS) resistant multicast authentication schemes, pollution resistant authenticated block streams (PRABS) (Karlof et al., 2004), by a factor of more than 5 for buffer requirement and 3 for CPU requirement.
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