剖析苹果iOS更新期间的Meta-CDN

Jeremias Blendin, Fabrice Bendfeldt, Ingmar Poese, B. Koldehofe, O. Hohlfeld
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引用次数: 8

摘要

内容分发网络(CDN)贡献了当今互联网流量的50%以上。元cdn是中央控制的cdn的一种演变,它承诺通过多宿主内容增加灵活性。到目前为止,对Meta-CDN特性的理解主要集中在第三方Meta-CDN服务上。元cdn的一个常见但未开发的用例是使用cdn映射基础设施来形成集成第三方cdn的自操作元cdn。这些CDN在CDN基础设施的构建阶段提供帮助,或者通过卸载流量来缓解容量短缺。本文研究了苹果CDN作为自操作元CDN的一个突出例子。我们描述了所涉及的CDN,请求映射机制,并使用全球800多个RIPE Atlas探针的测量显示了Apple CDN的缓存位置。我们通过观察2017年9月的一次重大iOS更新进一步衡量了其负载共享行为,这是一个可能影响多达10亿台iOS设备的重大事件。此外,通过分析来自欧洲眼球ISP的数据,我们量化了第三方流量卸载效果,发现第三方cdn在饱和看似不相关的链接的同时增加了438%的流量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Dissecting Apple's Meta-CDN during an iOS Update
Content delivery networks (CDN) contribute more than 50% of today's Internet traffic. Meta-CDNs, an evolution of centrally controlled CDNs, promise increased flexibility by multihoming content. So far, efforts to understand the characteristics of Meta-CDNs focus mainly on third-party Meta-CDN services. A common, but unexplored, use case for Meta-CDNs is to use the CDNs mapping infrastructure to form self-operated Meta-CDNs integrating third-party CDNs. These CDNs assist in the build-up phase of a CDN's infrastructure or mitigate capacity shortages by offloading traffic. This paper investigates the Apple CDN as a prominent example of self-operated Meta-CDNs. We describe the involved CDNs, the request-mapping mechanism, and show the cache locations of the Apple CDN using measurements of more than 800 RIPE Atlas probes worldwide. We further measure its load-sharing behavior by observing a major iOS update in Sep. 2017, a significant event potentially reaching up to an estimated 1 billion iOS devices. Furthermore, by analyzing data from a European Eyeball ISP, we quantify third-party traffic offloading effects and find third-party CDNs increase their traffic by 438% while saturating seemingly unrelated links.
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