R&D: Oasis, Controlling Data Migration in Expansion of Object-Based Storage Systems
Article presents MapX, novel extension to CRUSH that uses extra time-dimension mapping (from object creation times to cluster expansion times) for controlling data migration after cluster expansions.
This is a Press Release edited by StorageNewsletter.com on May 15, 2023 at 2:01 pmACM Transactions on Storage has published an article written by Yiming Zhang, NICEX Lab, School of Informatics, Xiamen University, China, Li Wang, Kylin Software, China, Shun Gai, NICEX Lab, School of Computer, NUDT, China, Qiwen Ke, NICEX Lab, School of Informatics, Xiamen University, China, Wenhao Li, School of Electronic Information and Electrical Engineering, SJTU, China, Zhenlong Song, School of Computer, NUDT, China, Guangtao Xue, School of Electronic Information and Electrical Engineering, SJTU, China, and Jiwu Shu, Xiamen University and Tsinghua University, China.
Abstract: “Object-based storage systems have been widely used for various scenarios such as file storage, block storage, blob (e.g., large videos) storage, and so on, where the data is placed among a large number of object storage devices (OSDs). Data placement is critical for the scalability of decentralized object-based storage systems. The state-of-the-art CRUSH placement method is a decentralized algorithm that deterministically places object replicas onto storage devices without relying on a central directory. While enjoying the benefits of decentralization such as high scalability, robustness, and performance, CRUSH-based storage systems suffer from uncontrolled data migration when expanding the capacity of the storage clusters (i.e., adding new OSDs), which is determined by the nature of CRUSH and will cause significant performance degradation when the expansion is nontrivial.“
“This article presents MapX, a novel extension to CRUSH that uses an extra time-dimension mapping (from object creation times to cluster expansion times) for controlling data migration after cluster expansions. Each expansion is viewed as a new layer of the CRUSH map represented by a virtual node beneath the CRUSH root. MapX controls the mapping from objects onto layers by manipulating the timestamps of the intermediate placement groups (PGs). MapX is applicable to a large variety of object-based storage scenarios where object timestamps can be maintained as higher-level metadata. We have applied MapX to the state-of-the-art Ceph-RBD (RADOS Block Device) to implement a migration-controllable, decentralized object-based block store (called Oasis). Oasis extends the RBD metadata structure to maintain and retrieve approximate object creation times (for migration control) at the granularity of expansion layers. Experimental results show that the MapX-based Oasis block store outperforms the CRUSH-based Ceph-RBD (which is busy in migrating objects after e