谁敲IPv6的门?:检测IPv6扫描

K. Fukuda, J. Heidemann
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引用次数: 21

摘要

DNS反向散射通过在DNS层次结构中较高的权威DNS服务器上查找常见的反向DNS查找来检测整个互联网的活动。DNS反向散射和监控未使用的地址空间(暗网或网络望远镜)都可以在IPv4中检测到扫描,但在IPv6的大得多的地址空间中,暗网变得不那么有效。本文介绍了如何使DNS反向散射适应IPv6。IPv6需要新的分类规则,但这些规则揭示了大型网络服务,从云提供商和cdn到NTP和邮件等特定服务。DNS反向散射还可以识别路由器接口,建议进行基于tracerroute的拓扑研究。通过对b根DNS服务器的观察,我们每周从DNS反向散射中识别出16个扫描仪,并从骨干流量观察或黑名单中进行确认。在排除良性服务后,我们将DNS反向散射中的另外95个发起者归类为潜在滥用。我们的工作还证实,IPv6似乎比IPv4更不小心监控。
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Who Knocks at the IPv6 Door?: Detecting IPv6 Scanning
DNS backscatter detects internet-wide activity by looking for common reverse DNS lookups at authoritative DNS servers that are high in the DNS hierarchy. Both DNS backscatter and monitoring unused address space (darknets or network telescopes) can detect scanning in IPv4, but with IPv6's vastly larger address space, darknets become much less effective. This paper shows how to adapt DNS backscatter to IPv6. IPv6 requires new classification rules, but these reveal large network services, from cloud providers and CDNs to specific services such as NTP and mail. DNS backscatter also identifies router interfaces suggesting traceroute-based topology studies. We identify 16 scanners per week from DNS backscatter using observations from the B-root DNS server, with confirmation from backbone traffic observations or blacklists. After eliminating benign services, we classify another 95 originators in DNS backscatter as potential abuse. Our work also confirms that IPv6 appears to be less carefully monitored than IPv4.
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