A security architecture for computational grids
CCS '98 Proceedings of the 5th ACM conference on Computer and communications security
The grid: blueprint for a new computing infrastructure
The grid: blueprint for a new computing infrastructure
A secure communications infrastructure for high-performance distributed computing
HPDC '97 Proceedings of the 6th IEEE International Symposium on High Performance Distributed Computing
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The Globus Toolkit emerged among several projects as the standard de facto for the design of an infrastructure for computational grids. The Globus Security Infrastructure (GSI) provides security features that integrate and extend standard protocols for distributed systems with original solutions. In this paper we investigate the functional correctness and effectiveness of the GSI features with respect to the main security services peculiar of a production environment. With this aim, we design and deploy a multiplatform, multiversion and multisite testbed for a computational grid. We then define a formal plan of tests and accomplish it in our testbed. Our results show that: message integrity, authentication and non repudiation are well addressed; access control and availability are problematic; message confidentiality was not implemented in the software release available at the time experiments have been accomplished. These results point out that GSI can be transferred to a production environment only if supported with a series of countermeasures aimed to reduce risks implied from a not satisfactory user credentials management and a lack of an effective monitoring system. Finally, we discuss the main points to be fixed in the deployment of a computational grid, such as the integration with Certification Authorities other than the one provided by Globus, and the adopted countermeasures mainly consisting in some additional features, such as an automatic tool for grid user management, a tool for advanced local access control, and a monitoring system for grid resources.