基于lsm的3D MLC NAND闪存键值存储的高效消毒设计

IF 0.4 Q4 COMPUTER SCIENCE, INFORMATION SYSTEMS Applied Computing Review Pub Date : 2023-03-27 DOI:10.1145/3555776.3577780
Liang-Chi Chen, Shu-Qi Yu, Chien-Chung Ho, Wei-Chen Wang, Yung-Chun Li
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引用次数: 0

摘要

传统的LSM树设计通过在指定的键中插入删除标记来删除数据,因此会在LSM树中为指定的键留下一些过期的值。因此,当需要进行数据清理时,由于未删除的值,LSM树会遇到严重的数据安全问题。消毒处理是一个耗时的过程,需要从存储设备中完全移除敏感数据。基于闪存的ssd广泛应用于许多系统,但它们缺乏就地更新功能,这使得LSM树难以在这些设备上同时维护隐私和性能。本研究提出了一种高效的可清理lsm树设计,用于基于lsm的键值存储在3D NAND闪存上。我们提出的高效的可清理的lsm树设计侧重于通过利用我们提出的影响意识编程方法集成键值对更新和清理的执行过程。通过一系列实验对所提出设计的性能进行了评价,得到了令人鼓舞的结果。
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Efficient Sanitization Design for LSM-based Key-Value Store over 3D MLC NAND Flash
Conventional LSM tree designs delete data by inserting a delete mark to the specified key, and they thus it leaves several out-of-date values to the specified key on the LSM tree. As a result, the LSM tree encounters a serious data security issue due to the undeleted values when there arises the need for data sanitization. Sanitization is a time-consuming process that involves completely removing sensitive data from storage devices. Flash-based SSDs are widely used in many systems, but they lack an in-place update feature, which makes it difficult for LSM trees to maintain both privacy and performance on these devices. This work proposes an efficient sanitizable LSM-tree design for LSM-based key-value store over 3D NAND flash memories. Our proposed efficient sanitizable LSM-tree design focuses on integrating the processes of key-value pair updating and the execution of sanitization by exploiting our proposed influence-conscious programming method. The capability of the proposed design is evaluated by a series of experiments, for which we have very encouraging results.
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来源期刊
Applied Computing Review
Applied Computing Review COMPUTER SCIENCE, INFORMATION SYSTEMS-
自引率
40.00%
发文量
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