CMU-CS-15-138
Computer Science Department
School of Computer Science, Carnegie Mellon University



CMU-CS-15-138

Agentless Cloud-wide Monitoring of Virtual Disk State

Wolfgang Richter

October 2015

Ph.D. Thesis

CMU-CS-15-138.pdf


Keywords: Agentless, Agentless Monitoring, Agentless Cloud Monitoring, Cloud, Cloud Computing, Cloud Monitoring, Deduplication, Deduplicated Snapshotting, Distributed Streaming Virtual Machine Introspection, File Deduplication, File Snapshotting, File Monitoring, Incremental Hashing, Introspection, Optimistic File Snapshotting, Retrospection, Searchable Backup, Snapshotting, Virtual Disk, Virtual Storage, Virtual Machine, VM, Virtual Machine Introspection, VMI

This dissertation proposes a fundamentally different way of monitoring persistent storage. It introduces a monitoring platform based on the modern reality of software defined storage which enables the decoupling of policy from mechanism. The proposed platform is both agentless–meaning it operates external to and independent of the entities it monitors–and scalable–meaning it is designed to address many systems at once with a mixture of operating systems and applications. Concretely, this dissertation focuses on virtualized clouds, but the proposed monitoring platform generalizes to any form of persistent storage. The core mechanism this dissertation introduces is called Distributed Streaming Virtual Machine Introspection (DS-VMI), and it leverages two properties of modern clouds: virtualized servers managed by hypervisors enabling efficient introspection, and file-level duplication of data within cloud instances. We explore a new class of agentless monitoring applications via three interfaces with two different consistency models: cloud-inotify (strong consistency), /cloud (eventual consistency), and /cloud-history (strong consistency). cloudinotify is a publish-subscribe interface to cloud-wide file-level updates and it supports event-based monitoring applications. /cloud is designed to support batch-based and legacy monitoring applications by providing a file system interface to cloud-wide file-level state. /cloud-history is designed to support efficient search and management of historic virtual disk state. It leverages new fast-toaccess archival storage systems, and achieves tractable indexing of file-level history via whole-file deduplication using a novel application of an incremental hashing construction.

141 pages

Thesis Committee:
Mahadev Satyanarayanan (Chair)
David G. Andersen
Gregory R. Ganger
Vasanth Bala(Google)
Canturk Isci (IBM Research)

Frank Pfenning, Head, Computer Science Department
Andrew W. Moore, Dean, School of Computer Science



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