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On the Cost of Safe Storage for Public Clouds: an Experimental Evaluation

Dorian Burihabwa, Rogério Pontes, Pascal Felber, Francisco Maia, Hugues Mercier, Rui Oliveira, João Paulo & Valerio Schiavoni

Résumé Cloud-based storage services such as Dropbox, Google Drive and OneDrive are increasingly popular for storing enterprise data, and they have already become the de facto choice for cloud-based backup of hundreds of millions of regular users. Drawn by the wide range of services they provide, no upfront costs and 24/7 availability across all personal devices, customers are well-aware of the benefits that these solutions can bring. However, most users tend to forget-or worse ignore-some of the main drawbacks of such cloud-based services, namely in terms of privacy. Data entrusted to these providers can be leaked by hackers, disclosed upon request from a governmental agency's subpoena, or even accessed directly by the storage providers (e.g., for commercial benefits). While there exist solutions to prevent or alleviate these problems, they typically require direct intervention from the clients, like encrypting their data before storing it, and reduce the benefits provided such as easily sharing data between users. This practical experience report studies a wide range of security mechanisms that can be used atop standard cloud-based storage services. We present the details of our evaluation testbed and discuss the design choices that have driven its implementation. We evaluate several state-of-the-art techniques with varying security guarantees responding to user-assigned security and privacy criteria. Our results reveal the various trade-offs of the different techniques by means of representative workloads on top of industry-grade storage services.
   
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Citation D. Burihabwa, et al., "On the Cost of Safe Storage for Public Clouds: an Experimental Evaluation," in 35th IEEE International Symposium on Reliable Distributed Systems, Budapest, Hungary, 2016.
   
Type Actes de congrès (Anglais)
Nom de la conférence 35th IEEE International Symposium on Reliable Distributed Systems (Budapest, Hungary)
Date de la conférence 26-9-2016
Editeur commercial IEEE
URL https://ieeexplore.ieee.org/document/7794340
Liée au projet SafeCloud: Secure and Resilient Cloud Architecture