Rights statement: © Owner/Author, 2017. This is the author's version of the work. It is posted here for your personal use. Not for redistribution. The definitive Version of Record was published in IMC '17 Proceedings of the 2017 Internet Measurement Conference http://dx.doi.org/10.1145/3131365.3131379
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Final published version
Research output: Contribution in Book/Report/Proceedings - With ISBN/ISSN › Conference contribution/Paper › peer-review
Publication date | 1/11/2017 |
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Host publication | IMC 2017 - Proceedings of the 2017 Internet Measurement Conference |
Place of Publication | New York |
Publisher | Association for Computing Machinery, Inc |
Pages | 1-14 |
Number of pages | 14 |
ISBN (electronic) | 9781450351188 |
<mark>Original language</mark> | English |
Event | 2017 ACM Internet Measurement Conference, IMC 2017 - London, United Kingdom Duration: 1/11/2017 → 3/11/2017 |
Conference | 2017 ACM Internet Measurement Conference, IMC 2017 |
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Country/Territory | United Kingdom |
City | London |
Period | 1/11/17 → 3/11/17 |
Conference | 2017 ACM Internet Measurement Conference, IMC 2017 |
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Country/Territory | United Kingdom |
City | London |
Period | 1/11/17 → 3/11/17 |
The Border Gateway Protocol (BGP) has been used for decades as the de facto protocol to exchange reachability information among networks in the Internet. However, little is known about how this protocol is used to restrict reachability to selected destinations, e.g., that are under attack. While such a feature, BGP blackholing, has been available for some time, we lack a systematic study of its Internet-wide adoption, practices, and network efficacy, as well as the profile of blackholed destinations. In this paper, we develop and evaluate a methodology to automatically detect BGP blackholing activity in the wild. We apply our method to both public and private BGP datasets. We find that hundreds of networks, including large transit providers, as well as about 50 Internet exchange points (IXPs) offer blackholing service to their customers, peers, and members. Between 2014-2017, the number of blackholed prefixes increased by a factor of 6, peaking at 5K concurrently blackholed prefixes by up to 400 Autonomous Systems. We assess the effect of blackholing on the data plane using both targeted active measurements as well as passive datasets, finding that blackholing is indeed highly effective in dropping traffic before it reaches its destination, though it also discards legitimate traffic. We augment our findings with an analysis of the target IP addresses of blackholing. Our tools and insights are relevant for operators considering offering or using BGP blackholing services as well as for researchers studying DDoS mitigation in the Internet.