This paper illustrates an approach to add security policies to a component-based system. We consider black-box-components-based applications, where each component can run concurrently in a different domain. The problem we want to face is to detect at run time that a component might start interacting with the other components in an anomalous way trying to subvert the application. This problem cannot be identified statically because we must take into account the fact that a component can be modified for malicious purposes at run time once deployed. We propose a specification-based approach to detect intrusions at architectural level. The approach is decentralized, that is given a global policy for the whole system, i.e. a set of admissible behaviors, we automatically generate a monitoring filter for each component that looks at local information of interest. Filters then suitably communicate in order to carry on cooperatively the validation of the global policy. With respect to centralized monitors, this approach increases performance, security and reliability and allows the supervision of complex applications where no centralized point of information flow exists or can be introduced. © Springer-Verlag Berlin Heidelberg 2005.
A Distributed Intrusion Detection Approach for Secure Software ArchitectureSoftware Architecture
MOSTARDA, Leonardo
2005
Abstract
This paper illustrates an approach to add security policies to a component-based system. We consider black-box-components-based applications, where each component can run concurrently in a different domain. The problem we want to face is to detect at run time that a component might start interacting with the other components in an anomalous way trying to subvert the application. This problem cannot be identified statically because we must take into account the fact that a component can be modified for malicious purposes at run time once deployed. We propose a specification-based approach to detect intrusions at architectural level. The approach is decentralized, that is given a global policy for the whole system, i.e. a set of admissible behaviors, we automatically generate a monitoring filter for each component that looks at local information of interest. Filters then suitably communicate in order to carry on cooperatively the validation of the global policy. With respect to centralized monitors, this approach increases performance, security and reliability and allows the supervision of complex applications where no centralized point of information flow exists or can be introduced. © Springer-Verlag Berlin Heidelberg 2005.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.