A new secure 2PL real-time concurrency control algorithm (ES2PL)

Ebrahim Abduljalil , Fursan Thabit , Ozgu Can , Pritam R. Patil , S.B. Thorat
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引用次数: 1

Abstract

A secure concurrency control algorithms must be devoid of covert channels originating from data conflicts between transactions, in addition to ensuring database integrity. Current secure concurrency control algorithms mistreat transactions with higher access classes. Because it better solves the priority inversion problem. A widely used concurrency control algorithm is the two-phase locking with high priority (2 PL-HP). The inclusion of cyclic restart, deadlock, unnecessary abort, pseudo-priority inversion, and starvation, on the other hand, may reduce its performance. In this paper, a new enhanced of secure two-phase locking protocol with multilevel secure distributed database systems is presented, the idea of enhanced secure Two-Phase locking protocol by adding the security level to assign the priority to the transaction. The enhanced add a secure manager to decide the level of the security and give the instruction to process the transaction in real lock with data x/virtual lock with version data x0 or decided to Abort the transaction based on the security level. The suggested study intends to reduce transaction miss rate by addressing the following issues: deadlock by splitting the execution stage into locking and processing phases, it reduces unnecessary cycle restart, transaction aborts by checking the security priority level (high, medium, low), and generating virtual lock and versions data. Finally, simulation performance confirms that improvement in transactions miss's percent and reduction in transactions' rollbacks compared to other secure concurrency control.

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一种新的安全2PL实时并发控制算法(ES2PL)
除了确保数据库完整性外,安全的并发控制算法还必须没有源自事务之间数据冲突的隐蔽通道。当前的安全并发控制算法对具有更高访问类的事务不正确。因为它更好地解决了优先级反转问题。一种广泛使用的并发控制算法是高优先级的两阶段锁(2 PL-HP)。另一方面,包含循环重启、死锁、不必要的中止、伪优先级反转和饥饿可能会降低其性能。本文提出了一种基于多级安全分布式数据库系统的增强安全两阶段锁定协议,即通过增加安全级别来为事务分配优先级的增强安全两阶段锁定协议的思想。增强后增加了一个安全管理器来决定安全级别,并根据安全级别指示在数据为x的实锁/数据为x0的虚锁中处理事务,或者决定终止事务。建议的研究旨在通过解决以下问题来降低事务失误率:通过将执行阶段划分为锁定和处理阶段来减少死锁,通过检查安全优先级级别(高、中、低)来减少不必要的周期重启,通过生成虚拟锁和版本数据来减少事务中断。最后,模拟性能证实,与其他安全并发控制相比,事务丢失百分比的改进和事务回滚的减少。
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